From 9a69930f6502f620fae9ff2f8371af88834c1831 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 12 Mar 2024 11:35:55 +0000 Subject: [PATCH 01/14] Initial reliability analysis RMS violated inequality constraints as severity function. --- infeas/analyse.py | 4 +- infeas/decoder.py | 16 +- ra/rms_cons/README.md | 3 + ra/rms_cons/large_tokamak_sol_IN_DAT.template | 487 + ra/rms_cons/ra_analysis.ipynb | 165 + ra/rms_cons/ra_eval.ipynb | 43021 ++++++++++++++++ 6 files changed, 43691 insertions(+), 5 deletions(-) create mode 100644 ra/rms_cons/README.md create mode 100644 ra/rms_cons/large_tokamak_sol_IN_DAT.template create mode 100644 ra/rms_cons/ra_analysis.ipynb create mode 100644 ra/rms_cons/ra_eval.ipynb diff --git a/infeas/analyse.py b/infeas/analyse.py index 032923d..f3c1019 100644 --- a/infeas/analyse.py +++ b/infeas/analyse.py @@ -57,7 +57,9 @@ def read_campaign(campaign_name: str) -> pd.DataFrame: print(f"Campaign read in. Number of samples = {sample_count}") # Drop strange multi-index of 0 - samples.columns = samples.columns.droplevel(1) + # TODO Commenting out required for reliability analysis work: may break + # other studies + # samples.columns = samples.columns.droplevel(1) return campaign, samples diff --git a/infeas/decoder.py b/infeas/decoder.py index c774a41..20353f3 100644 --- a/infeas/decoder.py +++ b/infeas/decoder.py @@ -74,9 +74,12 @@ def _process_raw_data(self, raw_data: Dict[str, Any]) -> Dict[str, float]: } # Only want violated constraint values - # Coerce feasible inequality constraints (> 0) = 0.0 + # Coerce feasible inequality constraints (c > 0) to 0.0 + # Sign of constraints confusing: beware cc = -cc in constraints module; + # against docs! + # TODO Check sign of violated constraints is definitely right # TODO Not sure if we want to mask non-violated constraint - # values at this stage: infeasibile responses only + # values at this stage: infeasible responses only vio_ineq_constrs_dict = {} for key, value in ineq_constrs_dict.items(): if value > 0: @@ -89,12 +92,17 @@ def _process_raw_data(self, raw_data: Dict[str, Any]) -> Dict[str, float]: # Calculate RMS constraint residuals for violated constraints only # Create arrays from constraints dicts - eq_constrs = np.array(list(eq_constrs_dict.values())) + # Don't include eq constraints + # TODO Should this be permanent? + # eq_constrs = np.array(list(eq_constrs_dict.values())) vio_ineq_constrs = np.array(list(vio_ineq_constrs_dict.values())) - vio_constrs = np.concatenate((eq_constrs, vio_ineq_constrs)) + # vio_constrs = np.concatenate((eq_constrs, vio_ineq_constrs)) + vio_constrs = vio_ineq_constrs rms_vio_constr_res = np.sqrt(np.mean(vio_constrs**2)) responses["rms_vio_constr_res"] = rms_vio_constr_res + # TODO Use different reliability metrics to RMS violated inequality constraints + return responses def parse_sim_output(self, run_info: Optional[Dict] = None) -> Dict[str, float]: diff --git a/ra/rms_cons/README.md b/ra/rms_cons/README.md new file mode 100644 index 0000000..0459c19 --- /dev/null +++ b/ra/rms_cons/README.md @@ -0,0 +1,3 @@ +# Local reliability analysis + +Run a local reliability analysis, for comparing with Dakota's cheaper "inner" methods. The function measuring severity of requirement violation is the RMS of violated inequality constraint residuals. \ No newline at end of file diff --git a/ra/rms_cons/large_tokamak_sol_IN_DAT.template b/ra/rms_cons/large_tokamak_sol_IN_DAT.template new file mode 100644 index 0000000..0465db5 --- /dev/null +++ b/ra/rms_cons/large_tokamak_sol_IN_DAT.template @@ -0,0 +1,487 @@ + +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 14 * fwalld +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 21 * ftburn +ixc = 25 * fpnetel +ixc = 26 * ffuspow +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 35 * fpeakb +ixc = 36 * fbetatry +ixc = 37 * coheof +ixc = 38 * fjohc +boundu(38) = 1.0 +ixc = 39 * fjohc0 +boundu(39) = 1.0 +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 46 * fpinj +ixc = 48 * fstrcase +ixc = 49 * fstrcond +ixc = 50 * fiooic +boundu(50) = 1.0 +ixc = 51 * fvdump +ixc = 52 * vdalw +boundu(52) = 10.0 +ixc = 53 * fjprot +ixc = 54 * ftmargtf +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 103 * flhthresh +boundu(103) = 10.0 +ixc = 106 * ftmargoh +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 110 * ftaulimit +ixc = 113 * fmaxvvstress +ixc = 117 * fpsepbqar +ixc = 122 * oh_steel_frac +ixc = 123 * foh_stress +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 +ixc = 154 * fne0 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 1.9854 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.57587 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5087 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +ffuspow = 0.54006 * f-value for maximum fusion power (`constraint equation 9`, `iteration variable 26`) +fiooic = 0.71737 * f-value for TF coil operating current / critical current ratio +fjohc = 0.55541 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.5419 * f-value for central solenoid current at beginning of pulse +fjprot = 0.99639 * f-value for TF coil winding pack current density +flhthresh = 1.6735 * f-value for L-H power threshold (`constraint equation 15`, `iteration variable 103`) +foh_stress = 0.90092 * f-value for Tresca yield criterion in Central Solenoid +fpeakb = 0.86988 * f-value for maximum toroidal field (`constraint equation 25`, `iteration variable 35`) +fpinj = 0.40071 * f-value for injection power (`constraint equation 30`, `iteration variable 46`) +fpnetel = 1.0 * f-value for net electric power (`constraint equation 16`, `iteration variable 25`) +fpsepbqar = 1.0 * f-value for maximum Psep*Bt/qAR limit (`constraint equation 68`, `iteration variable 117`) +fstrcase = 0.9967 * f-value for maximum TF coil case Tresca yield criterion +fstrcond = 0.85185 * f-value for maxiumum TF coil conduit Tresca yield criterion +fmaxvvstress = 0.42966 * f-value for maximum permitted stress of the VV +ftburn = 0.9994 * f-value for minimum burn time (`constraint equation 13`, `iteration variable 21`) +ftmargoh = 0.99653 * f-value for central solenoid temperature margin +ftmargtf = 0.99673 * f-value for TF coil temperature margin (`constraint equation 36`, `iteration variable 54`) +fvdump = 0.95837 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 0.50758 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement +ftaulimit = 0.7193 * f-value for lower limit on taup/taueff the ratio of alpha particle to energy + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00038 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 20264000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.9438 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.51868 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.033648 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.294 * toroidal field on axis (T) (`iteration variable 2`) +dene = 8.0667e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fne0 = 0.59638 * f-value for the constraint ne(0) > ne(ped) (`constraint equation 81`) +fvsbrnni = 0.43358 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.1886 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.5961 * safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.083954 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.489 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 89795.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.84212 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 18.429 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28216 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.50416 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080099 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 9.5837 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + +****************************** +* Modifications for reliability analysis: overwrites any previous values +****************************** +* Once through only +ioptimz = -2 * no optimisation + +fimp(14) = $fimp_14 * W impurity fraction +psepbqarmax = $psepbqarmax * divertor protection limit +triang = $triang * triangularity diff --git a/ra/rms_cons/ra_analysis.ipynb b/ra/rms_cons/ra_analysis.ipynb new file mode 100644 index 0000000..abc5e6c --- /dev/null +++ b/ra/rms_cons/ra_analysis.ipynb @@ -0,0 +1,165 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Analysis: reliability analysis using RMS violated inequality constraints" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import numpy as np\n", + "import pandas as pd\n", + "from infeas import analyse\n", + "import easyvvuq as uq" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Reading in campaign database.\n", + "Campaign read in. Number of samples = 5\n", + "Reading in campaign database.\n", + "Campaign read in. Number of samples = 25\n", + "Reading in campaign database.\n", + "Campaign read in. Number of samples = 125\n", + "Reading in campaign database.\n", + "Campaign read in. Number of samples = 125\n", + "Reading in campaign database.\n", + "Campaign read in. Number of samples = 625\n" + ] + } + ], + "source": [ + "# Read in all campaigns to dict containing campaign object and samples for each\n", + "campaign_names = [\"1p\", \"2p\", \"3p_only\", \"3p_bad\", \"3p_mc\"]\n", + "# Beware campaign name bug: string pattern must match only one campaign\n", + "campaigns = {}\n", + "for campaign_name in campaign_names:\n", + " campaigns[campaign_name] = {}\n", + " # TODO Do we actually ever need samples? Can get back from campaign later anyway\n", + " campaigns[campaign_name][\"campaign\"], campaigns[campaign_name][\"samples\"] = (\n", + " analyse.read_campaign(campaign_name=campaign_name)\n", + " )" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Analysis\n", + "\n", + "### Distribution of violated constraint residuals" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "(0.0, 0.24240714428785018)" + ] + }, + "execution_count": 4, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": "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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, ax = plt.subplots()\n", + "qoi_cols = [\"rms_vio_constr_res\"]\n", + "study_cdf_dfs = []\n", + "\n", + "for campaign_name in campaigns:\n", + " results = campaigns[campaign_name][\"campaign\"].analyse(qoi_cols=qoi_cols)\n", + "\n", + " # get_distribution() method not implemented for MCSampler in easyVVUQ\n", + " # not implemented in AnalysisResults (base) or QMCAnalysisResults (returned in MC case)\n", + " # Have to use seaborn instead to get dist for MC sampling\n", + " # For non-MC sampling case:\n", + " # if type(results) != uq.analysis.qmc_analysis.QMCAnalysisResults:\n", + " # dist = results.get_distribution(qoi=\"rms_vio_constr_res\")\n", + " # # Locations for density function to be evaluated\n", + " # x = np.linspace(dist.lower[0], dist.upper[0], num=500)\n", + " # cdf = dist.cdf(x)\n", + " # sns.lineplot(x=x, y=cdf, markers=True, ax=ax, label=campaign_name)\n", + "\n", + " # Can use ecdfplot for all data, PCE or MC-obtained\n", + " results.samples.columns = results.samples.columns.droplevel(1)\n", + " samples = results.samples[\"rms_vio_constr_res\"]\n", + " samples = samples.rename(campaign_name)\n", + " study_cdf_dfs.append(samples)\n", + "\n", + "cdfs = pd.concat(study_cdf_dfs, axis=1)\n", + "sns.ecdfplot(data=cdfs, ax=ax)\n", + "ax.set_title(\"Distribution for rms_vio_constr_res\")\n", + "ax.set_xlabel(\"RMS of violated constraint residuals\")\n", + "ax.set_ylabel(\"CDF\")\n", + "ax.set_xlim([0.0, None])" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "1, 2 and 3 uncertain parameters all very similar. In the \"3p_bad\" case, making fimp_14 uncertainty range well away from solution point (i.e. likely to cause large constraint violations) shifts the curve to the right. The Monte Carlo run (625 samples) broadly agrees with the PCE CDFs. \n", + "\n", + "Reliability $R = F_s(0 \\mid \\theta)= 0$, $P = 0$ of satisfying requirements. This indicates a problem with this solution point: it is never feasible under these uncertainties." + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": ".venv", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + }, + "orig_nbformat": 4, + "vscode": { + "interpreter": { + "hash": "0d602a62c005a1edaecc467843c8abc40b106c408f7dd3fdae5e868ff234b67e" + } + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/ra/rms_cons/ra_eval.ipynb b/ra/rms_cons/ra_eval.ipynb new file mode 100644 index 0000000..def5b26 --- /dev/null +++ b/ra/rms_cons/ra_eval.ipynb @@ -0,0 +1,43021 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Local reliability, RMS violated constraints: evaluate\n", + "\n", + "Evaluate local reliability for 1, 2 and 3 params, using the RMS violated inequality constraints as the requirement violation severity metric. This notebook has been run multiple times, starting with just `fimp_14`, then adding `psepbqarmax` and finally `triang`, each time producing a different campaign name to distinguish the campaign databases." + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "import easyvvuq as uq\n", + "import chaospy as cp\n", + "from pathlib import Path\n", + "from infeas.decoder import MfileDecoder" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [], + "source": [ + "# Define campaign\n", + "WORK_DIR = \"campaigns\"\n", + "Path(\"campaigns\").mkdir(exist_ok=True)\n", + "campaign = uq.Campaign(name=\"3p_only\", work_dir=WORK_DIR)\n", + "\n", + "# Define parameter space\n", + "# Uncertainties from Alex's SA paper\n", + "\n", + "params = {\n", + " # Default values are at solution point\n", + " \"fimp_14\": {\n", + " \"type\": \"float\",\n", + " \"min\": 5.0e-6,\n", + " \"max\": 1.0e-4,\n", + " \"default\": 5.0e-6,\n", + " }, # ok\n", + " \"psepbqarmax\": {\"type\": \"float\", \"min\": 8.7, \"max\": 10.0, \"default\": 10.0}, # ok\n", + " \"triang\": {\"type\": \"float\", \"min\": 0.4, \"max\": 0.6, \"default\": 0.5}, # ok\n", + "}\n", + "\n", + "# QoIs\n", + "# Violated constraint residuals\n", + "qois = [\n", + " \"rms_vio_constr_res\",\n", + "]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Next, define a custom decoder to handle Process's mfile output." + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [], + "source": [ + "# Create encoder and decoder\n", + "encoder = uq.encoders.GenericEncoder(\n", + " template_fname=\"large_tokamak_sol_IN_DAT.template\", target_filename=\"IN.DAT\"\n", + ")\n", + "\n", + "decoder = MfileDecoder(target_filename=\"MFILE.DAT\", output_columns=qois)\n", + "\n", + "cmd = \"process -i IN.DAT\"\n", + "actions = uq.actions.local_execute(encoder, cmd, decoder)\n", + "\n", + "# Add the app\n", + "campaign.add_app(name=\"feasibility\", params=params, actions=actions)" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 0%| | 0/625 [00:00\n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 0%| | 1/625 [00:02<28:02, 2.70s/it]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_7/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_7/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_7/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 0%| | 2/625 [00:03<13:35, 1.31s/it]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_8/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_8/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_8/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 0%| | 3/625 [00:03<08:41, 1.19it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_9/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_9/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_9/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_12/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_12/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_12/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.The IN.DAT file does not contain any obsolete variables.\n", + "\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_4/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_4/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_4/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_2/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_2/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_2/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_11/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_11/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_11/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_6/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_6/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_6/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 1%| | 6/625 [00:04<04:36, 2.24it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_14/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_14/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_14/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_13/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_13/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_13/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 1%|▏ | 8/625 [00:05<04:30, 2.28it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_15/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_15/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_15/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 2%|▏ | 11/625 [00:05<03:23, 3.02it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 2%|▏ | 12/625 [00:06<03:23, 3.02it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 2%|▏ | 15/625 [00:06<02:51, 3.56it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_16/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_16/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_16/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_21/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_21/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_21/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_18/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_18/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_18/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_19/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_19/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_19/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables. tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + "\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_20/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_20/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_20/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 3%|▎ | 16/625 [00:08<04:44, 2.14it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_17/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_17/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_17/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_24/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_24/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_24/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_26/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_26/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_26/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_23/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_23/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_23/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_22/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_22/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_22/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_25/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_25/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_25/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 4%|▎ | 22/625 [00:09<02:29, 4.03it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 4%|▎ | 23/625 [00:10<02:57, 3.39it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_27/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_27/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_27/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 4%|▍ | 24/625 [00:10<03:27, 2.90it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 4%|▍ | 25/625 [00:10<03:02, 3.28it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables. tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_31/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_31/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_31/IN.DAT\n", + "This is longer than 110 columns.\n", + "\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 4%|▍ | 26/625 [00:11<04:03, 2.46it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_28/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_28/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_28/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_30/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_30/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_30/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 4%|▍ | 28/625 [00:12<03:55, 2.54it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_33/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_33/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_33/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_29/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_29/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_29/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_37/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_37/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_37/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_35/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_35/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_35/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_32/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_32/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_32/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 5%|▍ | 29/625 [00:13<05:34, 1.78it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_34/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_34/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_34/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 5%|▌ | 33/625 [00:14<03:19, 2.97it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_36/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_36/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_36/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 5%|▌ | 34/625 [00:14<03:29, 2.82it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_42/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_42/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_42/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_40/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_40/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_40/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 6%|▌ | 35/625 [00:15<04:30, 2.18it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_39/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_39/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_39/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 6%|▌ | 37/625 [00:15<03:31, 2.78it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_38/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_38/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_38/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 6%|▌ | 38/625 [00:16<03:41, 2.65it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables." + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 6%|▌ | 39/625 [00:17<04:14, 2.30it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_43/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_43/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_43/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_48/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_48/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_48/IN.DAT\n", + "This is longer than 110 columns.\n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_41/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_41/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_41/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_44/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_44/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_44/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 6%|▋ | 40/625 [00:17<04:52, 2.00it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_47/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_47/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_47/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_45/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_45/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_45/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 7%|▋ | 41/625 [00:17<04:17, 2.27it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 7%|▋ | 43/625 [00:18<03:39, 2.65it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_46/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_46/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_46/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_50/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_50/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_50/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 7%|▋ | 44/625 [00:19<04:03, 2.38it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_49/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_49/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_49/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 7%|▋ | 46/625 [00:19<02:52, 3.35it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 8%|▊ | 47/625 [00:19<02:47, 3.45it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 8%|▊ | 48/625 [00:19<02:28, 3.88it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_51/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_51/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_51/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 8%|▊ | 49/625 [00:20<03:44, 2.56it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 8%|▊ | 50/625 [00:20<03:01, 3.16it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_53/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_53/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_53/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 8%|▊ | 51/625 [00:21<03:21, 2.85it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:57 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_52/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_52/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_52/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:57 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_56/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_56/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_56/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:57 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_54/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_54/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_54/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:57 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_55/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_55/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_55/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:57 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_57/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_57/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_57/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 8%|▊ | 53/625 [00:22<05:03, 1.88it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 9%|▊ | 54/625 [00:23<04:20, 2.19it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_62/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_62/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_62/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 9%|▉ | 56/625 [00:23<03:20, 2.84it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:53:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_58/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_58/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_58/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 9%|▉ | 57/625 [00:23<02:45, 3.42it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_59/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_59/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_59/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_60/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_60/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_60/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_61/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_61/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_61/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_63/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_63/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_63/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_67/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_67/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_67/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 9%|▉ | 58/625 [00:25<05:26, 1.73it/s]Traceback (most recent call last):\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 10%|▉ | 60/625 [00:25<04:21, 2.16it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_65/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_65/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_65/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 10%|█ | 63/625 [00:25<02:40, 3.51it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_64/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_64/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_64/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_66/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_66/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_66/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 10%|█ | 64/625 [00:26<03:36, 2.60it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_68/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_68/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_68/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 11%|█ | 66/625 [00:27<04:10, 2.24it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_75/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_75/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_75/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_69/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_69/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_69/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_73/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_73/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_73/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 11%|█ | 67/625 [00:28<03:42, 2.50it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_72/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_72/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_72/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_71/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_71/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_71/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_70/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_70/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_70/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 11%|█ | 68/625 [00:29<04:54, 1.89it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 11%|█ | 69/625 [00:29<04:00, 2.31it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_74/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_74/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_74/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 11%|█ | 70/625 [00:29<03:48, 2.42it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 11%|█▏ | 71/625 [00:29<03:36, 2.56it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + "Traceback (most recent call last):\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + "self.run_mode() Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + "\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 12%|█▏ | 72/625 [00:30<04:12, 2.19it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_77/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_77/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_77/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_78/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_78/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_78/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 12%|█▏ | 74/625 [00:31<03:11, 2.87it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_80/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_80/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_80/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_76/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_76/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_76/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_79/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_79/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_79/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 12%|█▏ | 75/625 [00:32<05:13, 1.75it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 12%|█▏ | 78/625 [00:32<03:09, 2.88it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 13%|█▎ | 79/625 [00:34<06:09, 1.48it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_83/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_83/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_83/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_81/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_81/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_81/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_86/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_86/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_86/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_84/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_84/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_84/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 13%|█▎ | 80/625 [00:34<05:24, 1.68it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_82/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_82/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_82/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " 13%|█▎ | 81/625 [00:35<05:52, 1.54it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_85/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_85/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_85/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 13%|█▎ | 82/625 [00:35<05:39, 1.60it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_87/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_87/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_87/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 13%|█▎ | 83/625 [00:36<04:31, 2.00it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_89/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_89/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_89/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 13%|█▎ | 84/625 [00:36<04:46, 1.89it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_90/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_90/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_90/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_88/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_88/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_88/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 14%|█▎ | 85/625 [00:37<05:39, 1.59it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_91/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_91/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_91/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 14%|█▍ | 87/625 [00:38<04:17, 2.09it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:14 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_94/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_94/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_94/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 14%|█▍ | 88/625 [00:38<04:09, 2.16it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 14%|█▍ | 89/625 [00:38<03:53, 2.29it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_92/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_92/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_92/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 15%|█▍ | 91/625 [00:39<04:07, 2.16it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_93/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_93/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_93/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 15%|█▍ | 92/625 [00:40<03:55, 2.26it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_100/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_100/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_100/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_96/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_96/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_96/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_95/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_95/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_95/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 15%|█▌ | 95/625 [00:41<03:41, 2.40it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_99/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_99/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_99/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_98/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_98/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_98/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 15%|█▌ | 96/625 [00:42<04:27, 1.97it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_97/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_97/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_0-100/run_97/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 16%|█▌ | 98/625 [00:43<03:47, 2.32it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_102/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_102/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_102/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Traceback (most recent call last):\n", + "Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_104/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_104/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_104/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:20 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_103/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_103/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_103/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:20 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_101/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_101/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_101/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 16%|█▌ | 99/625 [00:44<05:03, 1.73it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 16%|█▋ | 102/625 [00:45<04:32, 1.92it/s]Traceback (most recent call last):\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_106/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_106/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_106/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_105/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_105/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_105/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_110/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_110/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_110/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 16%|█▋ | 103/625 [00:46<05:47, 1.50it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_107/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_107/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_107/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_108/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_108/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_108/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 17%|█▋ | 104/625 [00:47<05:15, 1.65it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " 17%|█▋ | 105/625 [00:47<04:12, 2.06it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_109/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_109/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_109/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 17%|█▋ | 106/625 [00:48<04:36, 1.88it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_112/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_112/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_112/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 17%|█▋ | 107/625 [00:48<04:38, 1.86it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_113/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_113/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_113/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 17%|█▋ | 109/625 [00:49<03:37, 2.38it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_111/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_111/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_111/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 18%|█▊ | 112/625 [00:50<03:27, 2.47it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_114/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_114/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_114/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_118/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_118/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_118/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_119/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_119/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_119/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 18%|█▊ | 113/625 [00:51<05:23, 1.58it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_120/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_120/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_120/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_116/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_116/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_116/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_115/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_115/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_115/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 18%|█▊ | 114/625 [00:52<06:13, 1.37it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_122/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_122/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_122/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 18%|█▊ | 115/625 [00:53<05:05, 1.67it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_117/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_117/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_117/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 19%|█▊ | 116/625 [00:53<04:08, 2.04it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_123/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_123/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_123/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:30 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_121/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_121/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_121/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:30 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_125/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_125/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_125/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + "Traceback (most recent call last):\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 19%|█▊ | 117/625 [00:54<06:30, 1.30it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 19%|█▉ | 118/625 [00:55<05:37, 1.50it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_124/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_124/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_124/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 20%|█▉ | 124/625 [00:56<02:31, 3.32it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_128/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_128/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_128/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:33 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_132/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_132/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_132/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_126/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_126/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_126/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 20%|██ | 125/625 [00:58<05:59, 1.39it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_127/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_127/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_127/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 20%|██ | 127/625 [00:58<04:17, 1.94it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_133/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_133/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_133/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_129/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_129/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_129/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_131/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_131/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_131/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_130/IN.DAT\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 20%|██ | 128/625 [00:59<05:22, 1.54it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_130/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_130/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 21%|██ | 129/625 [01:00<05:09, 1.60it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_134/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_134/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_134/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_135/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_135/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_135/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 21%|██ | 130/625 [01:00<04:47, 1.72it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 21%|██ | 132/625 [01:01<03:35, 2.28it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_136/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_136/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_136/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 21%|██▏ | 133/625 [01:01<02:48, 2.92it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 21%|██▏ | 134/625 [01:02<04:02, 2.02it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_139/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_139/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_139/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_137/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_137/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_137/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 22%|██▏ | 135/625 [01:03<05:06, 1.60it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_140/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_140/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_140/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 22%|██▏ | 136/625 [01:03<04:04, 2.00it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_138/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_138/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_138/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_142/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_142/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_142/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_141/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_141/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_141/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_143/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_143/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_143/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 22%|██▏ | 137/625 [01:05<06:55, 1.17it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_147/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_147/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_147/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_145/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_145/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_145/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 22%|██▏ | 138/625 [01:05<05:53, 1.38it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_144/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_144/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_144/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 23%|██▎ | 141/625 [01:06<03:11, 2.53it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 23%|██▎ | 142/625 [01:06<03:22, 2.39it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 23%|██▎ | 143/625 [01:06<02:47, 2.87it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_146/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_146/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_146/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 23%|██▎ | 144/625 [01:07<04:24, 1.82it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 23%|██▎ | 145/625 [01:08<04:19, 1.85it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_155/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_155/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_155/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_149/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_149/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_149/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_148/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_148/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_148/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 24%|██▎ | 147/625 [01:09<03:43, 2.14it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 24%|██▎ | 148/625 [01:09<03:55, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_151/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_151/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_151/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_153/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_153/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_153/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 24%|██▍ | 149/625 [01:10<04:47, 1.66it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_154/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_154/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_154/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_150/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_150/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_150/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_158/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_158/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_158/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_152/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_152/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_152/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 24%|██▍ | 150/625 [01:12<06:32, 1.21it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 24%|██▍ | 151/625 [01:12<05:18, 1.49it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_156/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_156/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_156/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 24%|██▍ | 152/625 [01:12<04:46, 1.65it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_157/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_157/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_157/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 24%|██▍ | 153/625 [01:13<04:39, 1.69it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_159/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_159/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_159/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 25%|██▍ | 154/625 [01:13<04:12, 1.86it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_160/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_160/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_160/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 25%|██▍ | 155/625 [01:14<03:22, 2.32it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 25%|██▍ | 156/625 [01:14<03:00, 2.60it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 25%|██▌ | 158/625 [01:15<02:55, 2.66it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_163/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_163/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_163/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 25%|██▌ | 159/625 [01:16<04:57, 1.57it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 26%|██▌ | 161/625 [01:16<02:57, 2.61it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_161/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_161/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_161/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_165/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_165/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_165/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_162/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_162/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_162/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_169/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_169/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_169/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_164/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_164/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_164/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 26%|██▌ | 162/625 [01:18<05:09, 1.50it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 26%|██▌ | 163/625 [01:18<05:11, 1.48it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_167/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_167/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_167/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 26%|██▌ | 164/625 [01:19<04:33, 1.68it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.The IN.DAT file does not contain any obsolete variables.\n", + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_166/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_166/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_166/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_173/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_173/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_173/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_170/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_170/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_170/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 26%|██▋ | 165/625 [01:19<04:36, 1.66it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_172/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_172/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_172/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 27%|██▋ | 166/625 [01:20<04:38, 1.65it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_171/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_171/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_171/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_168/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_168/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_168/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 27%|██▋ | 167/625 [01:20<03:44, 2.04it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 27%|██▋ | 168/625 [01:21<03:32, 2.16it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 27%|██▋ | 169/625 [01:21<03:11, 2.38it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 28%|██▊ | 172/625 [01:22<02:10, 3.46it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_174/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_174/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_174/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 28%|██▊ | 173/625 [01:23<04:56, 1.53it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:54:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_180/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_180/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_180/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_175/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_175/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_175/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 28%|██▊ | 174/625 [01:24<05:39, 1.33it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_177/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_177/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_177/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_179/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_179/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_179/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 28%|██▊ | 176/625 [01:25<04:48, 1.55it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_176/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_176/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_176/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_184/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_184/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_184/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_181/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_181/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_181/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 28%|██▊ | 177/625 [01:26<04:46, 1.56it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_183/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_183/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_183/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_182/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_182/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_182/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 28%|██▊ | 178/625 [01:27<05:27, 1.36it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_186/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_186/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_186/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_178/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_178/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_178/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_185/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_185/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_185/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 29%|██▊ | 179/625 [01:27<04:24, 1.68it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 29%|██▉ | 180/625 [01:27<03:49, 1.94it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 29%|██▉ | 181/625 [01:28<04:14, 1.74it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_189/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_189/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_189/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 29%|██▉ | 184/625 [01:29<03:20, 2.20it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_187/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_187/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_187/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 30%|██▉ | 185/625 [01:30<02:55, 2.51it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 30%|██▉ | 187/625 [01:31<03:18, 2.21it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_191/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_191/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_191/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_190/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_190/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_190/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_188/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_188/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_188/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_196/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_196/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_196/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:08 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_192/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_192/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_192/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 30%|███ | 188/625 [01:32<04:26, 1.64it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:08 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_193/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_193/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_193/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 30%|███ | 189/625 [01:32<04:29, 1.62it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_195/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_195/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_195/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 30%|███ | 190/625 [01:33<04:47, 1.52it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_199/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_199/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_199/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 31%|███ | 191/625 [01:34<04:37, 1.56it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_194/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_194/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_194/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 31%|███ | 192/625 [01:34<03:39, 1.97it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_198/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_198/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_198/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables." + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 31%|███ | 194/625 [01:35<03:15, 2.21it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_197/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_197/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_100-200/run_197/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 31%|███ | 195/625 [01:36<03:53, 1.84it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_202/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_202/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_202/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 31%|███▏ | 196/625 [01:36<03:35, 1.99it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_200/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_200/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_200/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 32%|███▏ | 197/625 [01:37<03:50, 1.86it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 32%|███▏ | 198/625 [01:37<04:00, 1.78it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_201/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_201/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_201/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 32%|███▏ | 199/625 [01:38<03:35, 1.98it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:14 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_208/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_208/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_208/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 32%|███▏ | 200/625 [01:39<04:47, 1.48it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_205/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_205/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_205/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 32%|███▏ | 201/625 [01:39<04:08, 1.71it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_206/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_206/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_206/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_203/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_203/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_203/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 32%|███▏ | 202/625 [01:39<03:12, 2.20it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_207/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_207/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_207/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_204/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_204/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_204/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 32%|███▏ | 203/625 [01:40<04:20, 1.62it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 33%|███▎ | 204/625 [01:40<03:48, 1.84it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_209/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_209/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_209/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 33%|███▎ | 205/625 [01:41<04:07, 1.70it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 33%|███▎ | 206/625 [01:42<03:56, 1.77it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_210/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_210/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_210/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 33%|███▎ | 207/625 [01:42<03:25, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_211/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_211/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_211/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_212/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_212/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_212/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 33%|███▎ | 209/625 [01:43<02:49, 2.46it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_213/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_213/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_213/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:20 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_214/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_214/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_214/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:20 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_216/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_216/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_216/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 34%|███▎ | 210/625 [01:44<04:21, 1.58it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 34%|███▍ | 212/625 [01:45<03:30, 1.96it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:21 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_215/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_215/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_215/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 34%|███▍ | 214/625 [01:46<03:26, 1.99it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_220/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_220/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_220/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 34%|███▍ | 215/625 [01:46<03:24, 2.01it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_221/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_221/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_221/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_218/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_218/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_218/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_217/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_217/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_217/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_225/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_225/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_225/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_219/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_219/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_219/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 35%|███▍ | 216/625 [01:48<05:13, 1.30it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables." + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 35%|███▌ | 219/625 [01:48<03:12, 2.11it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_222/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_222/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_222/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_223/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_223/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_223/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 36%|███▌ | 222/625 [01:49<02:16, 2.95it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_224/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_224/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_224/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_226/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_226/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_226/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 36%|███▌ | 224/625 [01:51<03:34, 1.87it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_228/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_228/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_228/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_232/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_232/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_232/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_227/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_227/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_227/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 36%|███▌ | 225/625 [01:52<03:52, 1.72it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_231/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_231/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_231/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_229/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_229/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_229/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 36%|███▋ | 227/625 [01:52<03:21, 1.97it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_233/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_233/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_233/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_234/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_234/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_234/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 36%|███▋ | 228/625 [01:54<04:26, 1.49it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:30 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_236/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_236/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_236/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 37%|███▋ | 231/625 [01:54<02:34, 2.55it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:30 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_230/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_230/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_230/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_239/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_239/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_239/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 37%|███▋ | 232/625 [01:55<03:16, 2.00it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_237/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_237/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_237/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 37%|███▋ | 233/625 [01:56<03:31, 1.86it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_235/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_235/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_235/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 38%|███▊ | 236/625 [01:56<02:08, 3.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_238/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_238/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_238/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:33 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_240/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_240/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_240/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_244/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_244/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_244/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 38%|███▊ | 237/625 [01:58<03:47, 1.70it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_243/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_243/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_243/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 38%|███▊ | 238/625 [01:58<03:26, 1.88it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 38%|███▊ | 239/625 [01:58<03:03, 2.11it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 38%|███▊ | 240/625 [01:58<02:34, 2.50it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_242/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_242/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_242/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_241/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_241/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_241/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 39%|███▊ | 241/625 [01:59<02:56, 2.18it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 39%|███▉ | 243/625 [02:00<02:24, 2.64it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_247/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_247/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_247/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_245/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_245/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_245/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_248/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_248/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_248/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_251/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_251/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_251/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_246/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_246/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_246/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 39%|███▉ | 244/625 [02:01<04:21, 1.45it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_249/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_249/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_249/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 39%|███▉ | 245/625 [02:02<04:24, 1.44it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_252/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_252/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_252/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 39%|███▉ | 246/625 [02:02<03:57, 1.60it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 40%|███▉ | 247/625 [02:03<03:13, 1.96it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_250/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_250/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_250/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " 40%|███▉ | 248/625 [02:03<03:02, 2.07it/s] f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 40%|███▉ | 249/625 [02:03<02:29, 2.51it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 40%|████ | 251/625 [02:04<02:01, 3.09it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_253/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_253/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_253/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_254/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_254/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_254/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_255/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_255/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_255/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_258/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_258/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_258/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_257/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_257/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_257/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_256/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_256/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_256/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 40%|████ | 252/625 [02:06<04:29, 1.38it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 41%|████ | 255/625 [02:06<02:31, 2.44it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 41%|████ | 256/625 [02:07<02:23, 2.56it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_260/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_260/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_260/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_263/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_263/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_263/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 41%|████▏ | 258/625 [02:07<02:14, 2.73it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_259/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_259/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_259/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_261/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_261/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_261/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_264/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_264/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_264/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 41%|████▏ | 259/625 [02:08<02:45, 2.21it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 42%|████▏ | 260/625 [02:09<03:03, 1.98it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_262/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_262/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_262/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 42%|████▏ | 262/625 [02:09<02:49, 2.14it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_265/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_265/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_265/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_268/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_268/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_268/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_266/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_266/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_266/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_269/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_269/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_269/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_270/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_270/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_270/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 42%|████▏ | 263/625 [02:11<04:31, 1.33it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " 43%|████▎ | 266/625 [02:11<02:16, 2.63it/s] f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_267/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_267/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_267/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 43%|████▎ | 267/625 [02:12<03:11, 1.87it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_274/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_274/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_274/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_271/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_271/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_271/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 43%|████▎ | 268/625 [02:13<03:02, 1.96it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 43%|████▎ | 269/625 [02:13<02:36, 2.27it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_272/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_272/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_272/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 43%|████▎ | 270/625 [02:13<02:25, 2.44it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 43%|████▎ | 271/625 [02:14<02:54, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_273/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_273/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_273/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_277/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_277/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_277/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_275/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_275/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_275/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_276/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_276/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_276/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 44%|████▎ | 273/625 [02:16<03:52, 1.51it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_278/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_278/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_278/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_281/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_281/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_281/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 44%|████▍ | 275/625 [02:17<03:27, 1.69it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 44%|████▍ | 276/625 [02:17<03:22, 1.72it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_282/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_282/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_282/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_279/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_279/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_279/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 44%|████▍ | 278/625 [02:18<02:32, 2.28it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_280/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_280/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_280/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_284/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_284/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_284/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_286/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_286/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_286/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 45%|████▍ | 280/625 [02:19<02:48, 2.04it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_283/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_283/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_283/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_287/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_287/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_287/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_285/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_285/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_285/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 45%|████▌ | 283/625 [02:20<02:37, 2.17it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 46%|████▌ | 285/625 [02:21<02:11, 2.58it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_290/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_290/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_290/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_288/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_288/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_288/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_289/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_289/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_289/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_291/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_291/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_291/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 46%|████▌ | 287/625 [02:22<02:31, 2.23it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_292/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_292/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_292/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 46%|████▌ | 288/625 [02:23<03:05, 1.82it/s]Traceback (most recent call last):\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:55:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_294/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_294/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_294/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_296/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_296/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_296/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 46%|████▋ | 290/625 [02:24<02:47, 2.00it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 47%|████▋ | 291/625 [02:24<02:53, 1.93it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_297/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_297/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_297/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_293/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_293/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_293/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_295/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_295/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_295/IN.DAT\n", + "This is longer than 110 columns.\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_299/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_299/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_299/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 47%|████▋ | 292/625 [02:25<02:46, 2.00it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 47%|████▋ | 293/625 [02:25<02:27, 2.26it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_298/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_298/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_200-300/run_298/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 48%|████▊ | 297/625 [02:27<01:35, 3.43it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 48%|████▊ | 298/625 [02:27<01:49, 2.99it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_300/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_300/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_300/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 48%|████▊ | 299/625 [02:27<02:02, 2.66it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_302/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_302/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_302/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_304/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_304/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_304/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_301/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_301/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_301/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_305/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_305/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_305/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_303/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_303/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_303/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 48%|████▊ | 301/625 [02:30<03:35, 1.50it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_307/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_307/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_307/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 48%|████▊ | 302/625 [02:30<03:02, 1.77it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_309/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_309/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_309/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_310/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_310/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_310/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_306/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_306/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_306/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 48%|████▊ | 303/625 [02:31<03:07, 1.72it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_308/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_308/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_308/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 49%|████▊ | 304/625 [02:31<02:27, 2.17it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 49%|████▉ | 305/625 [02:32<02:57, 1.80it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:08 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_311/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_311/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_311/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 49%|████▉ | 307/625 [02:32<01:49, 2.91it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 49%|████▉ | 309/625 [02:32<01:36, 3.28it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_313/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_313/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_313/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_312/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_312/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_312/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 50%|████▉ | 311/625 [02:34<02:49, 1.85it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 50%|████▉ | 312/625 [02:34<02:34, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_314/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_314/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_314/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_315/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_315/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_315/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 50%|█████ | 313/625 [02:36<03:24, 1.53it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_316/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_316/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_316/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_318/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_318/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_318/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_317/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_317/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_317/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_322/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_322/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_322/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 50%|█████ | 314/625 [02:36<03:17, 1.58it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_319/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_319/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_319/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 50%|█████ | 315/625 [02:37<03:04, 1.68it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_320/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_320/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_320/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 51%|█████ | 316/625 [02:37<02:41, 1.92it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_321/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_321/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_321/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 51%|█████ | 317/625 [02:38<02:54, 1.77it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 51%|█████ | 318/625 [02:38<02:59, 1.71it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:14 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_323/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_323/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_323/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:14 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_326/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_326/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_326/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:14 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_324/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_324/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_324/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 51%|█████ | 320/625 [02:39<02:17, 2.21it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 51%|█████▏ | 321/625 [02:39<02:29, 2.04it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_325/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_325/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_325/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 52%|█████▏ | 324/625 [02:41<02:07, 2.37it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_327/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_327/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_327/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 52%|█████▏ | 325/625 [02:41<01:51, 2.70it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.The IN.DAT file does not contain any obsolete variables.\n", + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_330/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_330/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_330/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_328/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_328/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_328/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 52%|█████▏ | 326/625 [02:42<02:43, 1.83it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_329/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_329/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_329/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 52%|█████▏ | 328/625 [02:43<02:17, 2.17it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_331/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_331/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_331/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.The IN.DAT file does not contain any obsolete variables.\n", + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_333/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_333/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_333/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_334/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_334/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_334/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_332/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_332/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_332/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 53%|█████▎ | 329/625 [02:44<02:55, 1.68it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:20 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_335/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_335/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_335/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:20 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_338/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_338/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_338/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:21 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_336/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_336/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_336/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:21 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_337/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_337/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_337/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 53%|█████▎ | 330/625 [02:45<04:05, 1.20it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 53%|█████▎ | 333/625 [02:45<02:13, 2.19it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_339/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_339/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_339/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 54%|█████▎ | 335/625 [02:46<01:54, 2.54it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 54%|█████▍ | 337/625 [02:47<01:42, 2.81it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_340/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_340/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_340/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_341/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_341/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_341/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_343/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_343/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_343/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 54%|█████▍ | 339/625 [02:48<02:30, 1.90it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_342/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_342/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_342/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_345/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_345/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_345/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 54%|█████▍ | 340/625 [02:50<03:19, 1.43it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_348/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_348/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_348/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 55%|█████▍ | 341/625 [02:50<02:36, 1.82it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_344/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_344/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_344/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 55%|█████▍ | 342/625 [02:50<02:37, 1.79it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " tmargmin_cs has been ignored.\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_346/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_346/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_347/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_347/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Inequality constraints : 00\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Total constraints : 26\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_347/IN.DAT\n", + "This is longer than 110 columns.\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_346/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_349/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_349/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_349/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_351/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_351/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_351/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 55%|█████▍ | 343/625 [02:51<02:38, 1.78it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 55%|█████▌ | 344/625 [02:51<02:47, 1.68it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 55%|█████▌ | 346/625 [02:52<01:41, 2.74it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_350/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_350/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_350/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 56%|█████▌ | 349/625 [02:52<01:12, 3.82it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 56%|█████▌ | 350/625 [02:53<02:10, 2.11it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_354/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_354/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_354/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 56%|█████▌ | 351/625 [02:54<02:32, 1.79it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_352/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_352/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_352/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_353/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_353/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_353/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_357/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_357/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_357/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_355/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_355/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_355/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 56%|█████▋ | 352/625 [02:55<03:13, 1.41it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_360/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_360/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_360/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_359/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_359/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_359/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_358/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_358/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_358/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 56%|█████▋ | 353/625 [02:56<03:37, 1.25it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_356/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_356/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_356/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:33 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_361/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_361/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_361/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 57%|█████▋ | 355/625 [02:57<02:57, 1.52it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " 57%|█████▋ | 356/625 [02:57<02:30, 1.79it/s] final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_362/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_362/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_362/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_363/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_363/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_363/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 57%|█████▋ | 358/625 [02:58<02:07, 2.09it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_364/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_364/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_364/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 57%|█████▋ | 359/625 [02:58<02:03, 2.15it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_366/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_366/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_366/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 58%|█████▊ | 361/625 [02:59<01:50, 2.38it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 58%|█████▊ | 363/625 [03:00<01:35, 2.75it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_368/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_368/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_368/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 58%|█████▊ | 364/625 [03:00<01:27, 2.99it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_365/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_365/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_365/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 58%|█████▊ | 365/625 [03:01<02:44, 1.58it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_371/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_371/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_371/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_367/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_367/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_367/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_374/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_374/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_374/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_369/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_369/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_369/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 59%|█████▊ | 366/625 [03:02<03:10, 1.36it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_370/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_370/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_370/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_372/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_372/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_372/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 59%|█████▊ | 367/625 [03:03<02:42, 1.58it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 59%|█████▉ | 368/625 [03:04<02:59, 1.43it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_376/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_376/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_376/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_373/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_373/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_373/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 59%|█████▉ | 371/625 [03:04<01:43, 2.45it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 60%|█████▉ | 372/625 [03:05<01:44, 2.43it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_375/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_375/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_375/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 60%|█████▉ | 373/625 [03:05<01:36, 2.61it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 60%|█████▉ | 374/625 [03:06<01:54, 2.20it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 60%|██████ | 375/625 [03:06<01:49, 2.28it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_379/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_379/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_379/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 60%|██████ | 376/625 [03:06<01:49, 2.27it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_377/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_377/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_377/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 60%|██████ | 377/625 [03:07<02:15, 1.83it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_378/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_378/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_378/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.The IN.DAT file does not contain any obsolete variables.\n", + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_383/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_383/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_383/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.The IN.DAT file does not contain any obsolete variables.\n", + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_382/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_382/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_382/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_381/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_381/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_381/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_380/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_380/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_380/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_384/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_384/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_384/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_386/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_386/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_386/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_385/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_385/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_385/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 60%|██████ | 378/625 [03:09<03:52, 1.06it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 61%|██████ | 379/625 [03:10<03:09, 1.30it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 61%|██████▏ | 383/625 [03:10<01:20, 3.00it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 61%|██████▏ | 384/625 [03:10<01:15, 3.19it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_388/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_388/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_388/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 62%|██████▏ | 385/625 [03:11<01:18, 3.07it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_389/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_389/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_389/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 62%|██████▏ | 386/625 [03:11<01:19, 3.00it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_387/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_387/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_387/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_392/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_392/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_392/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " " + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_390/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_390/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_390/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_391/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_391/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_391/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 62%|██████▏ | 387/625 [03:13<03:32, 1.12it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_395/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_395/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_395/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_396/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_396/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_396/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 62%|██████▏ | 389/625 [03:14<02:24, 1.63it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_398/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_398/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_398/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 62%|██████▏ | 390/625 [03:14<02:14, 1.74it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_394/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_394/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_394/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_393/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_393/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_393/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 63%|██████▎ | 391/625 [03:15<01:59, 1.95it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 63%|██████▎ | 392/625 [03:15<01:53, 2.05it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 63%|██████▎ | 394/625 [03:15<01:15, 3.05it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 63%|██████▎ | 395/625 [03:16<01:16, 3.00it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_397/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_397/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_397/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 63%|██████▎ | 396/625 [03:16<01:11, 3.19it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 64%|██████▎ | 397/625 [03:17<01:33, 2.43it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables. tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_406/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_406/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_406/IN.DAT\n", + "This is longer than 110 columns.\n", + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_402/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_402/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_402/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_400/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_400/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_400/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_399/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_399/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_300-400/run_399/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 64%|██████▍ | 399/625 [03:19<02:21, 1.60it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_404/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_404/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_404/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_408/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_408/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_408/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_407/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_407/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_407/IN.DAT\n", + "This is longer than 110 columns.\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_401/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_401/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_401/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 64%|██████▍ | 400/625 [03:20<02:34, 1.46it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_405/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_405/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_405/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_409/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_409/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_409/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_403/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_403/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_403/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 64%|██████▍ | 401/625 [03:20<02:18, 1.61it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 64%|██████▍ | 402/625 [03:21<02:21, 1.57it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 65%|██████▍ | 405/625 [03:21<01:18, 2.79it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:57 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_411/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_411/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_411/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 65%|██████▍ | 406/625 [03:22<01:19, 2.76it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 65%|██████▌ | 408/625 [03:22<00:54, 4.01it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_413/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_413/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_413/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 65%|██████▌ | 409/625 [03:23<01:36, 2.23it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:56:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_410/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_410/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_410/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 66%|██████▌ | 410/625 [03:24<02:04, 1.73it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_412/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_412/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_412/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_417/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_417/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_417/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_414/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_414/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_414/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:01 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_415/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_415/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_415/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 66%|██████▌ | 412/625 [03:25<02:16, 1.56it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 66%|██████▌ | 413/625 [03:26<02:00, 1.76it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_418/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_418/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_418/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 66%|██████▌ | 414/625 [03:26<01:43, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_416/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_416/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_416/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 67%|██████▋ | 416/625 [03:27<01:34, 2.22it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_419/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_419/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_419/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_420/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_420/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_420/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 67%|██████▋ | 417/625 [03:27<01:38, 2.11it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_421/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_421/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_421/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_423/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_423/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_423/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_426/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_426/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_426/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_422/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_422/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_422/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 67%|██████▋ | 418/625 [03:29<02:33, 1.35it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_424/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_424/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_424/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 67%|██████▋ | 420/625 [03:29<01:47, 1.90it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 67%|██████▋ | 421/625 [03:30<01:34, 2.16it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_427/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_427/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_427/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_425/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_425/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_425/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 68%|██████▊ | 422/625 [03:30<01:55, 1.76it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_428/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_428/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_428/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_429/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_429/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_429/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 68%|██████▊ | 426/625 [03:31<01:04, 3.10it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 68%|██████▊ | 427/625 [03:33<01:48, 1.82it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_432/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_432/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_432/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 68%|██████▊ | 428/625 [03:33<01:52, 1.76it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_430/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_430/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_430/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_431/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_431/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_431/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_438/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_438/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_438/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_433/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_433/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_433/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_437/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_437/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_437/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_435/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_435/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_435/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_434/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_434/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_434/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_436/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_436/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_436/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 69%|██████▉ | 431/625 [03:36<02:12, 1.46it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:12 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_439/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_439/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_439/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 70%|██████▉ | 436/625 [03:36<00:52, 3.58it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_441/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_441/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_441/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_440/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_440/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_440/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 70%|███████ | 438/625 [03:38<01:20, 2.31it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 70%|███████ | 440/625 [03:39<01:12, 2.54it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_445/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_445/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_445/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_446/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_446/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_446/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 71%|███████ | 441/625 [03:39<01:30, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_447/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_447/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_447/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_443/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_443/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_443/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_442/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_442/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_442/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 71%|███████ | 442/625 [03:41<02:08, 1.42it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_448/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_448/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_448/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_444/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_444/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_444/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 71%|███████ | 445/625 [03:41<01:21, 2.21it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_449/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_449/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_449/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_452/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_452/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_452/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 71%|███████▏ | 446/625 [03:42<01:42, 1.74it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_450/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_450/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_450/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_453/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_453/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_453/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 72%|███████▏ | 448/625 [03:43<01:21, 2.17it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_451/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_451/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_451/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 72%|███████▏ | 450/625 [03:44<01:03, 2.76it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:21 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_456/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_456/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_456/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 72%|███████▏ | 451/625 [03:45<01:49, 1.59it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:21 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_455/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_455/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_455/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 72%|███████▏ | 452/625 [03:45<01:44, 1.66it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_454/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_454/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_454/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 73%|███████▎ | 454/625 [03:46<01:24, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_457/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_457/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_457/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_462/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_462/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_462/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 73%|███████▎ | 455/625 [03:47<01:37, 1.75it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_463/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_463/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_463/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_458/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_458/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_458/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + "op.write(models, ft.constants.nout)\n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + "models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_459/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_459/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_459/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_460/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_460/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_460/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 73%|███████▎ | 456/625 [03:48<01:53, 1.48it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_461/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_461/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_461/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 73%|███████▎ | 457/625 [03:48<01:47, 1.56it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:24 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_465/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_465/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_465/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 74%|███████▎ | 460/625 [03:49<00:55, 2.96it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_464/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_464/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_464/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_467/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_467/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_467/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 74%|███████▍ | 461/625 [03:50<01:38, 1.67it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 74%|███████▍ | 463/625 [03:51<01:09, 2.35it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:27 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_466/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_466/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_466/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 74%|███████▍ | 465/625 [03:51<01:01, 2.61it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_469/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_469/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_469/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_473/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_473/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_473/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_468/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_468/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_468/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 75%|███████▍ | 467/625 [03:53<01:30, 1.75it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_471/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_471/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_471/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_470/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_470/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_470/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 75%|███████▌ | 469/625 [03:54<01:15, 2.06it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:30 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_476/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_476/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_476/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 75%|███████▌ | 470/625 [03:54<01:07, 2.31it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:30 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_474/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_474/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_474/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 75%|███████▌ | 471/625 [03:55<01:17, 1.98it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_472/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_472/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_472/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 76%|███████▌ | 472/625 [03:55<01:12, 2.12it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_477/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_477/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_477/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 76%|███████▌ | 473/625 [03:55<01:06, 2.29it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_475/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_475/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_475/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " " + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:33 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_482/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_482/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_482/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 76%|███████▌ | 474/625 [03:57<01:54, 1.31it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:33 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_478/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_478/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_478/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 76%|███████▌ | 476/625 [03:57<01:07, 2.22it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_479/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_479/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_479/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_480/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_480/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 76%|███████▋ | 478/625 [03:58<00:46, 3.16it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_480/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_481/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_481/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_481/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 77%|███████▋ | 479/625 [03:59<01:06, 2.19it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_483/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_483/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_483/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 77%|███████▋ | 480/625 [04:00<01:26, 1.68it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_490/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_490/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_490/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 77%|███████▋ | 481/625 [04:00<01:32, 1.55it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_484/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_484/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_484/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 77%|███████▋ | 482/625 [04:01<01:16, 1.87it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_485/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_485/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_485/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 77%|███████▋ | 483/625 [04:01<01:09, 2.04it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_488/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_488/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_488/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_486/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_486/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_486/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_489/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_489/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_489/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 77%|███████▋ | 484/625 [04:02<01:22, 1.70it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_487/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_487/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_487/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 78%|███████▊ | 485/625 [04:03<01:31, 1.53it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_493/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_493/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_493/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 78%|███████▊ | 486/625 [04:03<01:14, 1.88it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 78%|███████▊ | 487/625 [04:03<01:04, 2.14it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 78%|███████▊ | 488/625 [04:04<01:09, 1.98it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 78%|███████▊ | 490/625 [04:04<00:54, 2.50it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_492/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_492/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_492/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_491/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_491/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_491/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_496/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_496/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_496/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_495/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_495/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_495/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_494/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_494/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_494/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_500/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_500/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_500/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_498/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_498/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_498/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 79%|███████▊ | 492/625 [04:06<01:29, 1.49it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 79%|███████▉ | 493/625 [04:07<01:17, 1.70it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 79%|███████▉ | 494/625 [04:07<01:07, 1.93it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_497/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_497/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_497/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_499/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_499/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_400-500/run_499/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 79%|███████▉ | 495/625 [04:07<01:04, 2.02it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " " + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_501/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_501/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_501/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 79%|███████▉ | 496/625 [04:08<01:03, 2.04it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 80%|███████▉ | 499/625 [04:09<00:41, 3.02it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_505/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_505/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_505/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_502/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_502/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_502/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_503/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_503/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_503/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 80%|████████ | 500/625 [04:10<01:02, 2.01it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 80%|████████ | 502/625 [04:11<00:51, 2.38it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_506/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_506/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_506/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_504/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_504/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_504/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_507/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_507/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_507/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 80%|████████ | 503/625 [04:11<00:56, 2.16it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_509/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_509/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_509/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 81%|████████ | 504/625 [04:12<01:05, 1.85it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:48 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_508/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_508/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_508/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 81%|████████ | 505/625 [04:13<01:20, 1.48it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:49 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_511/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_511/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_511/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 81%|████████ | 507/625 [04:13<00:52, 2.23it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 81%|████████▏ | 508/625 [04:14<00:56, 2.08it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_514/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_514/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_514/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_513/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_513/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_513/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:50 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_510/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_510/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_510/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_512/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_512/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_512/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:51 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_516/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_516/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_516/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 82%|████████▏ | 510/625 [04:15<01:11, 1.61it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 82%|████████▏ | 511/625 [04:16<00:56, 2.03it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:52 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_515/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_515/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_515/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 82%|████████▏ | 512/625 [04:16<00:53, 2.10it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 82%|████████▏ | 514/625 [04:16<00:38, 2.89it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_518/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_518/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_518/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 82%|████████▏ | 515/625 [04:17<00:42, 2.60it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_520/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_520/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_520/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:53 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_519/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_519/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_519/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:54 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_517/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_517/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_517/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 83%|████████▎ | 517/625 [04:18<00:53, 2.01it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_521/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_521/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_521/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:55 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_526/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_526/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_526/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_523/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_523/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_523/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 83%|████████▎ | 519/625 [04:20<01:12, 1.47it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_525/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_525/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_525/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 83%|████████▎ | 520/625 [04:20<00:57, 1.82it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:56 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_524/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_524/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_524/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 83%|████████▎ | 521/625 [04:21<00:56, 1.85it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 84%|████████▎ | 522/625 [04:21<00:44, 2.31it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:57 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_522/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_522/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_522/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 84%|████████▎ | 523/625 [04:21<00:48, 2.09it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_529/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_529/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_529/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_528/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_528/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_528/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:58 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_527/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_527/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_527/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 84%|████████▍ | 524/625 [04:22<01:00, 1.68it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_530/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_530/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_530/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 84%|████████▍ | 525/625 [04:23<00:59, 1.69it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 84%|████████▍ | 526/625 [04:23<00:56, 1.76it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:57:59 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_532/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_532/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_532/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 84%|████████▍ | 527/625 [04:24<00:44, 2.22it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 84%|████████▍ | 528/625 [04:24<00:41, 2.36it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_534/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_534/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_534/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_531/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_531/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_531/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:00 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_533/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_533/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_533/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 85%|████████▍ | 529/625 [04:25<00:47, 2.02it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 85%|████████▍ | 530/625 [04:25<00:37, 2.52it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 85%|████████▍ | 531/625 [04:26<00:50, 1.87it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_535/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_535/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_535/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 85%|████████▌ | 533/625 [04:26<00:36, 2.54it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:02 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_537/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_537/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_537/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 85%|████████▌ | 534/625 [04:26<00:31, 2.88it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_536/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_536/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_536/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:03 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_538/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_538/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_538/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_544/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_544/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_544/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_539/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_539/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_539/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 86%|████████▌ | 535/625 [04:28<01:03, 1.41it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 86%|████████▌ | 536/625 [04:28<00:49, 1.80it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:04 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_540/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_540/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_540/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_541/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_541/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_541/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 86%|████████▌ | 537/625 [04:29<00:53, 1.65it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:05 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_542/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_542/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_542/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 86%|████████▌ | 538/625 [04:29<00:51, 1.68it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 86%|████████▋ | 540/625 [04:30<00:39, 2.16it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:06 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_543/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_543/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_543/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 87%|████████▋ | 541/625 [04:30<00:33, 2.51it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_546/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_546/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_546/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 87%|████████▋ | 542/625 [04:31<00:39, 2.11it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_545/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_545/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_545/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:07 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_551/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_551/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_551/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " 87%|████████▋ | 543/625 [04:32<00:42, 1.93it/s] self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 87%|████████▋ | 544/625 [04:32<00:43, 1.86it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 87%|████████▋ | 546/625 [04:33<00:35, 2.23it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_548/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_548/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_548/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_547/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_547/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_547/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:09 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_550/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_550/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_550/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_549/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_549/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_549/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 88%|████████▊ | 547/625 [04:34<00:44, 1.75it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_556/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_556/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_556/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:10 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_552/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_552/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_552/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_554/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_554/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_554/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 88%|████████▊ | 548/625 [04:35<01:05, 1.18it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_553/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_553/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_553/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:11 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_555/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_555/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_555/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 88%|████████▊ | 549/625 [04:36<00:53, 1.43it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 88%|████████▊ | 551/625 [04:36<00:30, 2.42it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 88%|████████▊ | 552/625 [04:36<00:30, 2.42it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_557/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_557/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_557/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 89%|████████▊ | 554/625 [04:37<00:29, 2.42it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:13 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_559/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_559/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_559/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 89%|████████▉ | 556/625 [04:38<00:26, 2.59it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:14 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_558/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_558/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_558/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 89%|████████▉ | 557/625 [04:38<00:25, 2.65it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:14 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_561/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_561/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_561/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_562/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_562/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_562/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:15 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_564/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_564/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_564/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 89%|████████▉ | 558/625 [04:40<00:46, 1.45it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:16 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_563/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_563/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_563/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 90%|████████▉ | 560/625 [04:40<00:35, 1.85it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_560/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_560/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_560/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 90%|████████▉ | 561/625 [04:41<00:34, 1.87it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables. tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_568/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_568/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_568/IN.DAT\n", + "This is longer than 110 columns.\n", + "\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + "The IN.DAT file does not contain any obsolete variables. **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:17 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_567/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_567/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_567/IN.DAT\n", + "This is longer than 110 columns.\n", + "\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_565/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_565/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_565/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_569/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_569/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_569/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:18 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_566/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_566/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_566/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 90%|█████████ | 564/625 [04:43<00:34, 1.75it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 90%|█████████ | 565/625 [04:43<00:33, 1.77it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_572/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_572/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_572/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:19 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_571/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_571/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_571/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 91%|█████████ | 570/625 [04:45<00:16, 3.36it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:21 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_570/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_570/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_570/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_576/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_576/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_576/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_573/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_573/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_573/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:22 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_575/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_575/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_575/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 91%|█████████▏| 571/625 [04:46<00:28, 1.90it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_574/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_574/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_574/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_577/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_577/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_577/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_582/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_582/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_582/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:23 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_578/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_578/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_578/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 92%|█████████▏| 572/625 [04:47<00:35, 1.48it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 92%|█████████▏| 573/625 [04:47<00:29, 1.75it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 92%|█████████▏| 574/625 [04:48<00:26, 1.90it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 92%|█████████▏| 575/625 [04:48<00:22, 2.21it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 92%|█████████▏| 576/625 [04:48<00:22, 2.17it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 92%|█████████▏| 578/625 [04:49<00:14, 3.15it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_581/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_581/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_581/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:25 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_579/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_579/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_579/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_580/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_580/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_580/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 93%|█████████▎| 579/625 [04:50<00:23, 1.93it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_583/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_583/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_583/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 93%|█████████▎| 581/625 [04:50<00:18, 2.40it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:26 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_585/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_585/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_585/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 93%|█████████▎| 583/625 [04:52<00:20, 2.03it/s]Traceback (most recent call last):\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_590/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_590/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_590/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_584/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_584/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_584/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + "The IN.DAT file does not contain any obsolete variables.\n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_587/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_587/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_587/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:28 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_591/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_591/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_591/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_588/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_588/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_588/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_589/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_589/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_589/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:29 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_586/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_586/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_586/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 93%|█████████▎| 584/625 [04:53<00:25, 1.61it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 94%|█████████▍| 586/625 [04:54<00:20, 1.89it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:30 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_592/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_592/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_592/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())Traceback (most recent call last):\n", + "\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + "Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 94%|█████████▍| 587/625 [04:55<00:24, 1.58it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 95%|█████████▍| 591/625 [04:55<00:10, 3.29it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:31 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_594/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_594/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_594/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_593/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_593/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_593/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_595/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_595/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_595/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:32 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_596/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_596/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_596/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:33 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_597/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_597/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_597/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 95%|█████████▍| 593/625 [04:57<00:15, 2.01it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 95%|█████████▌| 594/625 [04:58<00:16, 1.93it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_598/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_598/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_598/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 95%|█████████▌| 596/625 [04:58<00:11, 2.54it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_599/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_599/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_500-600/run_599/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:34 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_603/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_603/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_603/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_600/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_600/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_600/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 96%|█████████▌| 597/625 [04:59<00:17, 1.58it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:35 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_601/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_601/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_601/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 96%|█████████▌| 598/625 [05:00<00:14, 1.89it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_602/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_602/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_602/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:36 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_604/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_604/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_604/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 96%|█████████▌| 600/625 [05:00<00:09, 2.64it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_607/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_607/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_607/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:37 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_605/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_605/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_605/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 96%|█████████▌| 601/625 [05:01<00:15, 1.52it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:38 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_606/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_606/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_606/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 97%|█████████▋| 604/625 [05:02<00:07, 2.64it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 97%|█████████▋| 605/625 [05:03<00:08, 2.27it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_609/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_609/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_609/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:39 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_608/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_608/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_608/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 97%|█████████▋| 606/625 [05:04<00:10, 1.76it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:40 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_614/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_614/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_614/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 97%|█████████▋| 607/625 [05:04<00:10, 1.69it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 97%|█████████▋| 608/625 [05:05<00:09, 1.78it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 97%|█████████▋| 609/625 [05:05<00:07, 2.16it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_610/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_610/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_610/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_613/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_613/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_613/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:41 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_616/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_616/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_616/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_611/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_611/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_611/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 98%|█████████▊| 610/625 [05:06<00:08, 1.75it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_612/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_612/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_612/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:42 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_615/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_615/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_615/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_620/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_620/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_620/IN.DAT\n", + "This is longer than 110 columns.\n", + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_619/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_619/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_619/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 98%|█████████▊| 611/625 [05:07<00:12, 1.13it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:43 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_617/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_617/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_617/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 98%|█████████▊| 612/625 [05:08<00:08, 1.48it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 98%|█████████▊| 615/625 [05:08<00:04, 2.45it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 99%|█████████▊| 617/625 [05:08<00:02, 3.56it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:44 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_618/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_618/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_618/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 99%|█████████▉| 619/625 [05:09<00:01, 3.77it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_621/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_621/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_621/IN.DAT\n", + "This is longer than 110 columns.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:45 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_622/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_622/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_622/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + " 99%|█████████▉| 620/625 [05:10<00:01, 2.51it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_624/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_624/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_624/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "100%|█████████▉| 622/625 [05:10<00:00, 3.02it/s]" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:46 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_625/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_625/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_625/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.0.2 Release Date :: 2024-01-25\n", + " Tag No. : v3.0.2-24-g00e1700\n", + " Branch : main\n", + " Git log : Added check to see if fimp(2) deviates from default value, if it does… ([hash]3053)\n", + " Date/time : 27 Feb 2024 11:58:47 +00:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory :\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_623/IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_623/IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 26\n", + " Inequality constraints : 00\n", + " Total constraints : 26\n", + " Iteration variables : 45\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/ra/campaigns/3p_mc10hz7esn/runs/runs_0-100000000/runs_0-1000000/runs_0-10000/runs_600-700/run_623/IN.DAT\n", + "This is longer than 110 columns.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "100%|█████████▉| 624/625 [05:11<00:00, 3.10it/s]Traceback (most recent call last):\n", + " File \"/home/jon/anaconda3/envs/easyVVUQ-process/bin/process\", line 33, in \n", + " sys.exit(load_entry_point('process', 'console_scripts', 'process')())\n", + " File \"/home/jon/code/process/process/main.py\", line 650, in main\n", + " Process(args)\n", + " File \"/home/jon/code/process/process/main.py\", line 127, in __init__\n", + " self.run_mode()\n", + " File \"/home/jon/code/process/process/main.py\", line 204, in run_mode\n", + " self.run.run()\n", + " File \"/home/jon/code/process/process/main.py\", line 363, in run\n", + " self.run_scan(self.solver)\n", + " File \"/home/jon/code/process/process/main.py\", line 475, in run_scan\n", + " final.finalise(self.models, self.ifail)\n", + " File \"/home/jon/code/process/process/final.py\", line 23, in finalise\n", + " op.write(models, ft.constants.nout)\n", + " File \"/home/jon/code/process/process/output.py\", line 44, in write\n", + " models.physics.outplas()\n", + " File \"/home/jon/code/process/process/physics.py\", line 4239, in outplas\n", + " f\"Confinement scaling law: { physics_variables.tauscl[physics_variables.isc-1]}\",\n", + "IndexError: too many indices for array: array is 0-dimensional, but 1 were indexed\n", + "100%|██████████| 625/625 [05:11<00:00, 2.00it/s]\n" + ] + } + ], + "source": [ + "# Create PCE sampler\n", + "# Vary 3 uncertain inputs\n", + "vary = {\n", + " \"fimp_14\": cp.Uniform(\n", + " 1.0e-5,\n", + " 1.0e-4,\n", + " # Soln value: 5.0e-6: outside bounds\n", + " ),\n", + " \"psepbqarmax\": cp.Uniform(\n", + " 8.7,\n", + " 10.0,\n", + " ),\n", + " \"triang\": cp.Uniform(\n", + " 0.4,\n", + " 0.6,\n", + " ),\n", + "}\n", + "sampler = uq.sampling.PCESampler(vary=vary, polynomial_order=4)\n", + "# Optionally, try MC\n", + "# sampler = uq.sampling.MCSampler(vary=vary, n_mc_samples=125)\n", + "# Actually 625 samples in practice: Saltelli method\n", + "\n", + "# Add sampler to campaign\n", + "campaign.set_sampler(sampler)\n", + "\n", + "# Draw samples, execute and collate\n", + "campaign.execute().collate(progress_bar=True)\n", + "samples = campaign.get_collation_result()" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": ".venv", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + }, + "orig_nbformat": 4, + "vscode": { + "interpreter": { + "hash": "0d602a62c005a1edaecc467843c8abc40b106c408f7dd3fdae5e868ff234b67e" + } + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} From b2e70804de81c8f3698bfbb88171bf7c0415c5ce Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 12 Mar 2024 13:32:35 +0000 Subject: [PATCH 02/14] Add violation severity threshold --- .../rel_threshold/large_tokamak_sol_IN.DAT | 483 ++++++ .../rel_threshold/large_tokamak_sol_MFILE.DAT | 1527 +++++++++++++++++ ra/metrics/rel_threshold/rel_threshold.ipynb | 76 + 3 files changed, 2086 insertions(+) create mode 100644 ra/metrics/rel_threshold/large_tokamak_sol_IN.DAT create mode 100644 ra/metrics/rel_threshold/large_tokamak_sol_MFILE.DAT create mode 100644 ra/metrics/rel_threshold/rel_threshold.ipynb diff --git a/ra/metrics/rel_threshold/large_tokamak_sol_IN.DAT b/ra/metrics/rel_threshold/large_tokamak_sol_IN.DAT new file mode 100644 index 0000000..6985614 --- /dev/null +++ b/ra/metrics/rel_threshold/large_tokamak_sol_IN.DAT @@ -0,0 +1,483 @@ +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 14 * fwalld +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 21 * ftburn +ixc = 25 * fpnetel +ixc = 26 * ffuspow +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 35 * fpeakb +ixc = 36 * fbetatry +ixc = 37 * coheof +ixc = 38 * fjohc +boundu(38) = 1.0 +ixc = 39 * fjohc0 +boundu(39) = 1.0 +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 46 * fpinj +ixc = 48 * fstrcase +ixc = 49 * fstrcond +ixc = 50 * fiooic +boundu(50) = 1.0 +ixc = 51 * fvdump +ixc = 52 * vdalw +boundu(52) = 10.0 +ixc = 53 * fjprot +ixc = 54 * ftmargtf +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 103 * flhthresh +boundu(103) = 10.0 +ixc = 106 * ftmargoh +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 110 * ftaulimit +ixc = 113 * fmaxvvstress +ixc = 117 * fpsepbqar +ixc = 122 * oh_steel_frac +ixc = 123 * foh_stress +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 +ixc = 154 * fne0 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 1.9854 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.57587 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5087 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +ffuspow = 0.54006 * f-value for maximum fusion power (`constraint equation 9`, `iteration variable 26`) +fiooic = 0.71737 * f-value for TF coil operating current / critical current ratio +fjohc = 0.55541 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.5419 * f-value for central solenoid current at beginning of pulse +fjprot = 0.99639 * f-value for TF coil winding pack current density +flhthresh = 1.6735 * f-value for L-H power threshold (`constraint equation 15`, `iteration variable 103`) +foh_stress = 0.90092 * f-value for Tresca yield criterion in Central Solenoid +fpeakb = 0.86988 * f-value for maximum toroidal field (`constraint equation 25`, `iteration variable 35`) +fpinj = 0.40071 * f-value for injection power (`constraint equation 30`, `iteration variable 46`) +fpnetel = 1.0 * f-value for net electric power (`constraint equation 16`, `iteration variable 25`) +fpsepbqar = 1.0 * f-value for maximum Psep*Bt/qAR limit (`constraint equation 68`, `iteration variable 117`) +fstrcase = 0.9967 * f-value for maximum TF coil case Tresca yield criterion +fstrcond = 0.85185 * f-value for maxiumum TF coil conduit Tresca yield criterion +fmaxvvstress = 0.42966 * f-value for maximum permitted stress of the VV +ftburn = 0.9994 * f-value for minimum burn time (`constraint equation 13`, `iteration variable 21`) +ftmargoh = 0.99653 * f-value for central solenoid temperature margin +ftmargtf = 0.99673 * f-value for TF coil temperature margin (`constraint equation 36`, `iteration variable 54`) +fvdump = 0.95837 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 0.50758 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement +ftaulimit = 0.7193 * f-value for lower limit on taup/taueff the ratio of alpha particle to energy + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00038 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 20264000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.9438 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.51868 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.033648 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.294 * toroidal field on axis (T) (`iteration variable 2`) +dene = 8.0667e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fne0 = 0.59638 * f-value for the constraint ne(0) > ne(ped) (`constraint equation 81`) +fvsbrnni = 0.43358 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.1886 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.5961 * safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.083954 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.489 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 89795.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.84212 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 18.429 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28216 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.50416 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080099 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 9.5837 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + +****************************** +* Modifications for reliability analysis: overwrites any previous values +****************************** +* Once through only +ioptimz = -2 * no optimisation +neqns = 3 * distinguish between equality and inequality constraints \ No newline at end of file diff --git a/ra/metrics/rel_threshold/large_tokamak_sol_MFILE.DAT b/ra/metrics/rel_threshold/large_tokamak_sol_MFILE.DAT new file mode 100644 index 0000000..21d2f4a --- /dev/null +++ b/ra/metrics/rel_threshold/large_tokamak_sol_MFILE.DAT @@ -0,0 +1,1527 @@ + # PROCESS # + # Power Reactor Optimisation Code # + # PROCESS # + # Power Reactor Optimisation Code # + PROCESS_version_number__________________________________________________ (procver)_____________________ "3.0.2 R" + Date_of_run_____________________________________________________________ (date)________________________ "29/02/2024" + Time_of_run_____________________________________________________________ (time)________________________ "09:46" + User____________________________________________________________________ (username)____________________ "jon" + PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak + PROCESS_tag_number______________________________________________________ (tagno)_______________________ "v3.0.2-32-g2958d5e" + PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "main" + PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Add tests for parsing real inputs in IN.DAT" + Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/ra/metrics/rel_threshold/large_tokamak_sol_IN.DAT " + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + # Final UNFEASIBLE Point # + # Numerics # + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 + Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ 7.8159E-03 + Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ -1.5544E-02 + Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ -2.3989E-06 + Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 4.3293E-06 + Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ -2.2872E-02 + Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ -2.2865E-02 + Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 2.1526E-01 + L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 2.6835E-01 + Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 3.9078E-02 + Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ -8.1371E-02 + Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 4.0887E-03 + Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ -1.8032E-07 + CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 1.3632E-04 + CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.2698E-04 + I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ -3.1263E-05 + Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ -1.7223E-04 + J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ -1.5447E-05 + TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ -7.4495E-05 + CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.2210E-04 + taup/taueff_____________________________________________________________ (ineq_con062)_________________ 3.0746E-02 + Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ -1.7246E-05 + CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 5.6591E-05 + ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ -5.6851E-06 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ -2.7634E-01 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 4.6020E-06 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.0348E-06 + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0158E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 1.5955E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 1.2636E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5238E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9736E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 1.1043E+01 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.8237E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0933E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4123E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3229E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.4263E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4365E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.5066E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4658E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.2552E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6405E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6757E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.4840E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 8.0236E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4367E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7232E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.3138E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.3138E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.2480E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.6123E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 5.9325E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.7005E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 4.0144E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4127E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1323E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5267E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.9531E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.9610E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2679E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3203E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9754E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.5492E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5478E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7395E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.2626E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.1002E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 3.3871E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 3.3871E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 3.2064E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 4.6453E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0354E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8088E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9201E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5313E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.5414E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7886E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 8.6103E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.9983E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.2309E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0808E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.6208E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3670E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8745E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4616E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.9569E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4779E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0435E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0158E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 1.5955E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0158E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 5.7473E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6631E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9805E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2275E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4373E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2940E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6787E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3647E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5961E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9805E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.3648E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2857E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.4552E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3434E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.4821E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.9305E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1197E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 3.0092E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.2856E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.9099E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4875E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8562E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9329E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7842E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.5042E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0913E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2489E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5758E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2489E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5758E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3805E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0667E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0610E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9334E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.2407E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5585E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 3.1057E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.7723E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.8963E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4446E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 8.3954E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.1327E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 8.3954E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 3.8000E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6954E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.0700E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3279E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7223E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 6.0674E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.3020E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 5.2397E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 4.2300E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 5.1014E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6609E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4446E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6581E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6561E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9950E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.3122E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3256E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2956E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.9359E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 5.3574E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 9.9551E+01 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.5188E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 7.1766E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 9.6546E+01 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 1.6831E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 4.2763E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.3191E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 4.3928E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6561E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0389E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 4.5056E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.8473E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 2.6583E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 5.1235E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1828E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8172E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4934E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.6637E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.7128E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 2.2528E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.8160E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 1.3819E+01 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2978E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.8603E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.8098E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1452E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.7206E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.8492E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2910E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.7885E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.8534E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 1.0054E+02 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.6345E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1352E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3624E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2375E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7550E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4319E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.3006E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.6202E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.8492E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2910E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.7885E+01 OP + L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.8492E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1886E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0371E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0371E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0371E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.4499E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0597E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 3.2183E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 7.1766E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 2.1761E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 7.1649E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7726E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.4552E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9496E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7267E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 2.8632E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3585E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0159E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0806E-01 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7097E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2763E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5169E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3169E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2017E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1139E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.0283E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2763E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.0806E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 3.2702E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.7222E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4181E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.4531E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.9106E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.7117E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 2.1280E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1356E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 9.8926E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6487E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2763E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 5.9482E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.6642E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.3358E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.7128E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5426E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7726E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8601E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7002E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6631E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 8.7551E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6631E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 2.6426E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 1.9854E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.7587E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.8065E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.1598E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3720E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.1598E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.3534E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1510E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0390E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1568E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8724E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6028E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5724E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4752E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5411E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7860E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6028E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5645E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3889E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1398E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6313E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4510E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5345E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0824E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2713E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2697E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.6923E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1673E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.1598E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.1598E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7937E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4527E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8229E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2853E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.4751E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.6493E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6444E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8216E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5456E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7486E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1696E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.0416E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1904E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0901E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.8217E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1551E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.7934E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3656E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4739E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.9223E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7623E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.1603E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0099E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6999E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4212E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5788E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5048E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.6963E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.8072E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.9311E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3777E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5446E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1402E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1424E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2178E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1176E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1176E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2636E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5602E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1617E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2161E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0908E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0908E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.0590E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.8429E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.1442E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.5837E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.1863E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4620E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4212E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0730E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.1337E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1263E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5687E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5602E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5048E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2517E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9795E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.1739E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4050E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.4921E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0476E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.5297E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9125E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3920E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.6101E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0830E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.6490E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.0264E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 1.9854E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.7587E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 9.1407E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3996E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0797E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3199E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.7411E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 5.1868E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 6.7565E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -7.6200E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 6.7565E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6255E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5056E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.9739E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.6953E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.4741E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5651E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 5.3515E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 5.3515E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 1.3380E+02 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3603E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2724E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2724E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4523E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7809E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.2242E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0594E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3648E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3648E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1225E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0490E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.6949E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6731E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1332E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1332E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9262E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.7049E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6389E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6731E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1332E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1332E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9262E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.7049E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6389E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5209E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0773E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0773E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3048E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2194E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5737E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5209E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0773E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0773E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3048E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2194E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5737E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2733E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.7587E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6307E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8523E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4050E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5204E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.4380E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.4036E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3970E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7809E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7809E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 9.2927E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8268E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0490E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0490E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -1.5820E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9540E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.1063E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.1063E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.7049E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9540E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.1063E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.1063E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.7049E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.2648E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.8249E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.8249E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2194E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.2648E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.8249E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.8249E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2194E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7482E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 2.5998E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 2.5998E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8523E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6631E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6631E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6631E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2925E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.3045E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4369E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2760E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 4.0087E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.8281E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4866E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4649E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6581E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1424E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6528E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6239E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.9859E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2342E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5706E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6697E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3203E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4468E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5254E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7798E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5338E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6042E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9795E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.1863E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.0166E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.9268E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.0230E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.0622E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9002E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.8429E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.0731E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4285E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8975E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.2194E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3901E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6891E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1836E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1932E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1646E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9234E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8228E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0937E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8768E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0433E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0327E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6485E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6485E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.8802E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 9.9000E+03 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.4683E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6698E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6698E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 5.9881E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.7054E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 3.9700E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 3.9700E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 2.8670E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 3.9700E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 5.9881E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 4.8991E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7160E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 5.8790E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.2000E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9708E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9531E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3810E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1310E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1937E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 2.4006E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5828E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 9.3948E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.8894E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.5564E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0433E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5426E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 6.0436E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5715E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4779E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 8.4063E-02 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9539E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 5.9121E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 1.9050E-01 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 9.3948E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6239E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.9859E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2342E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8665E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.3151E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 2.2827E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.8894E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.8015E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0534E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 9.3948E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5715E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4563E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.7128E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.7737E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2158E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 3.1571E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 7.1766E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8748E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1466E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2956E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 5.1235E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.7128E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.9359E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6581E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1557E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.7128E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 5.1235E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6438E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.2157E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8151E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4541E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.9917E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5706E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.2158E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 3.6745E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5426E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.8894E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 9.3948E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0433E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 5.6927E-02 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5715E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.8631E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.8631E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.8631E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6581E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1557E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9737E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 3.6745E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3295E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.7737E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9743E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 1.8618E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.2161E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.8541E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6522E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8964E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8585E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 244 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 14 * fwalld +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 21 * ftburn +ixc = 25 * fpnetel +ixc = 26 * ffuspow +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 35 * fpeakb +ixc = 36 * fbetatry +ixc = 37 * coheof +ixc = 38 * fjohc +boundu(38) = 1.0 +ixc = 39 * fjohc0 +boundu(39) = 1.0 +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 46 * fpinj +ixc = 48 * fstrcase +ixc = 49 * fstrcond +ixc = 50 * fiooic +boundu(50) = 1.0 +ixc = 51 * fvdump +ixc = 52 * vdalw +boundu(52) = 10.0 +ixc = 53 * fjprot +ixc = 54 * ftmargtf +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 103 * flhthresh +boundu(103) = 10.0 +ixc = 106 * ftmargoh +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 110 * ftaulimit +ixc = 113 * fmaxvvstress +ixc = 117 * fpsepbqar +ixc = 122 * oh_steel_frac +ixc = 123 * foh_stress +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 +ixc = 154 * fne0 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 1.9854 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.57587 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5087 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +ffuspow = 0.54006 * f-value for maximum fusion power (`constraint equation 9`, `iteration variable 26`) +fiooic = 0.71737 * f-value for TF coil operating current / critical current ratio +fjohc = 0.55541 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.5419 * f-value for central solenoid current at beginning of pulse +fjprot = 0.99639 * f-value for TF coil winding pack current density +flhthresh = 1.6735 * f-value for L-H power threshold (`constraint equation 15`, `iteration variable 103`) +foh_stress = 0.90092 * f-value for Tresca yield criterion in Central Solenoid +fpeakb = 0.86988 * f-value for maximum toroidal field (`constraint equation 25`, `iteration variable 35`) +fpinj = 0.40071 * f-value for injection power (`constraint equation 30`, `iteration variable 46`) +fpnetel = 1.0 * f-value for net electric power (`constraint equation 16`, `iteration variable 25`) +fpsepbqar = 1.0 * f-value for maximum Psep*Bt/qAR limit (`constraint equation 68`, `iteration variable 117`) +fstrcase = 0.9967 * f-value for maximum TF coil case Tresca yield criterion +fstrcond = 0.85185 * f-value for maxiumum TF coil conduit Tresca yield criterion +fmaxvvstress = 0.42966 * f-value for maximum permitted stress of the VV +ftburn = 0.9994 * f-value for minimum burn time (`constraint equation 13`, `iteration variable 21`) +ftmargoh = 0.99653 * f-value for central solenoid temperature margin +ftmargtf = 0.99673 * f-value for TF coil temperature margin (`constraint equation 36`, `iteration variable 54`) +fvdump = 0.95837 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 0.50758 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement +ftaulimit = 0.7193 * f-value for lower limit on taup/taueff the ratio of alpha particle to energy + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00038 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 20264000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.9438 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.51868 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.033648 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.294 * toroidal field on axis (T) (`iteration variable 2`) +dene = 8.0667e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fne0 = 0.59638 * f-value for the constraint ne(0) > ne(ped) (`constraint equation 81`) +fvsbrnni = 0.43358 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.1886 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.5961 * safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.083954 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.489 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 89795.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.84212 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 18.429 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28216 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.50416 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080099 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 9.5837 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + +****************************** +* Modifications for reliability analysis: overwrites any previous values +****************************** +* Once through only +ioptimz = -2 * no optimisation +neqns = 3 * distinguish between equality and inequality constraints \ No newline at end of file diff --git a/ra/metrics/rel_threshold/rel_threshold.ipynb b/ra/metrics/rel_threshold/rel_threshold.ipynb new file mode 100644 index 0000000..9aef02f --- /dev/null +++ b/ra/metrics/rel_threshold/rel_threshold.ipynb @@ -0,0 +1,76 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Solution requirement violation severity value as a threshold\n", + "\n", + "Process produces solutions with non-zero requirement violation severity $s$, i.e. some inequality constraints are violated at a converged solution. This is possibly due to tolerances on the contraint violations, and is a problem for reliability analysis as it means that the initial solution has $s > 0$, i.e. it is not feasible. This could be fixed by modifying Process to only converge when the inequality constraints are truly satisfied and $s = 0$.\n", + "\n", + "However, in the meantime, a workaroud might be to work out the RMS constraints at the solution point, then use this as a threshold for reliability in reliability analyses: are the sample points more or less severely violated than the original solution?\n", + "\n", + "So far, severity:\n", + "$$s = \\sqrt{\\frac{1}{N}\\sum_{i=1}^{N}c_i^2},$$\n", + "i.e. the RMS of violated inequality constraints. $s > 0$ at the solution point. Therefore the solution is infeasible, and a reliability analysis around that point is likely to give a reliability $R = 0$, where $R = F_s(0 \\mid \\theta)$.\n", + "\n", + "Therefore use the solution severity $s$ as a threshold severity, which can be subtracted from sample severities to normalise them. The solution severity $s$ is calculated below." + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "from infeas.decoder import MfileDecoder" + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Severity threshold s = 0.060444372057375594\n" + ] + } + ], + "source": [ + "# Hijack decoder to work out RMS constraints\n", + "mfile_path = \"large_tokamak_sol_MFILE.DAT\"\n", + "mfile_decoder = MfileDecoder(\n", + " target_filename=mfile_path, output_columns=[\"rms_vio_constr_res\"]\n", + ")\n", + "raw_data = mfile_decoder._get_raw_data(mfile_path)\n", + "processed_data = mfile_decoder._process_raw_data(raw_data)\n", + "severity_thresh = processed_data[\"rms_vio_constr_res\"]\n", + "print(f\"Severity threshold s = {severity_thresh}\")" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "easyVVUQ-process", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} From b44fc06a3fb630085ba27c74b462deb4b6482fc5 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Wed, 13 Mar 2024 10:13:28 +0000 Subject: [PATCH 03/14] Add normalised severity metric experiment --- infeas/decoder.py | 17 +- ra/metrics/README.md | 5 + ra/metrics/large_tokamak_sol_IN_DAT.template | 487 ++ ra/metrics/ra_analysis.ipynb | 262 + ra/metrics/ra_eval.ipynb | 6134 ++++++++++++++++++ 5 files changed, 6903 insertions(+), 2 deletions(-) create mode 100644 ra/metrics/README.md create mode 100644 ra/metrics/large_tokamak_sol_IN_DAT.template create mode 100644 ra/metrics/ra_analysis.ipynb create mode 100644 ra/metrics/ra_eval.ipynb diff --git a/infeas/decoder.py b/infeas/decoder.py index 20353f3..77c9af0 100644 --- a/infeas/decoder.py +++ b/infeas/decoder.py @@ -99,9 +99,22 @@ def _process_raw_data(self, raw_data: Dict[str, Any]) -> Dict[str, float]: # vio_constrs = np.concatenate((eq_constrs, vio_ineq_constrs)) vio_constrs = vio_ineq_constrs rms_vio_constr_res = np.sqrt(np.mean(vio_constrs**2)) - responses["rms_vio_constr_res"] = rms_vio_constr_res - # TODO Use different reliability metrics to RMS violated inequality constraints + # TODO Would be better to override method in notebook for testing + # Try subtracting solution RMS cons threshold + rms_cons_sol_thresh = 0.06034437205737559 + over_tol_rms_vio_constr_res = rms_vio_constr_res - rms_cons_sol_thresh + + # Don't coerce to 0; it's fine if some severitiy values are -ve: + # Corresponds to feasible solutions + # over_tol_rms_vio_constr_res = over_tol_rms_vio_constr_res * ( + # over_tol_rms_vio_constr_res > 0 + # ) + responses["rms_vio_constr_res"] = over_tol_rms_vio_constr_res + # responses["rms_vio_constr_res"] = rms_vio_constr_res + + # TODO Don't use RMS violated inequality constraints: use different + # reliability metric return responses diff --git a/ra/metrics/README.md b/ra/metrics/README.md new file mode 100644 index 0000000..25ce4da --- /dev/null +++ b/ra/metrics/README.md @@ -0,0 +1,5 @@ +# Local reliability analysis: different reliability metrics + +Run a local reliability analysis, comparing different reliability metrics. + +Originally, the requirement violation severity function $s$ was defined by the RMS violated inequality constraints. This is modified to a normalised version; normalised to the value of the severity at the solution point. The severity function then becomes a test of whether the sample point is more or less violated than the solution point. \ No newline at end of file diff --git a/ra/metrics/large_tokamak_sol_IN_DAT.template b/ra/metrics/large_tokamak_sol_IN_DAT.template new file mode 100644 index 0000000..f12783e --- /dev/null +++ b/ra/metrics/large_tokamak_sol_IN_DAT.template @@ -0,0 +1,487 @@ +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 14 * fwalld +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 21 * ftburn +ixc = 25 * fpnetel +ixc = 26 * ffuspow +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 35 * fpeakb +ixc = 36 * fbetatry +ixc = 37 * coheof +ixc = 38 * fjohc +boundu(38) = 1.0 +ixc = 39 * fjohc0 +boundu(39) = 1.0 +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 46 * fpinj +ixc = 48 * fstrcase +ixc = 49 * fstrcond +ixc = 50 * fiooic +boundu(50) = 1.0 +ixc = 51 * fvdump +ixc = 52 * vdalw +boundu(52) = 10.0 +ixc = 53 * fjprot +ixc = 54 * ftmargtf +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 103 * flhthresh +boundu(103) = 10.0 +ixc = 106 * ftmargoh +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 110 * ftaulimit +ixc = 113 * fmaxvvstress +ixc = 117 * fpsepbqar +ixc = 122 * oh_steel_frac +ixc = 123 * foh_stress +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 +ixc = 154 * fne0 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 1.9854 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.57587 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5087 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +ffuspow = 0.54006 * f-value for maximum fusion power (`constraint equation 9`, `iteration variable 26`) +fiooic = 0.71737 * f-value for TF coil operating current / critical current ratio +fjohc = 0.55541 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.5419 * f-value for central solenoid current at beginning of pulse +fjprot = 0.99639 * f-value for TF coil winding pack current density +flhthresh = 1.6735 * f-value for L-H power threshold (`constraint equation 15`, `iteration variable 103`) +foh_stress = 0.90092 * f-value for Tresca yield criterion in Central Solenoid +fpeakb = 0.86988 * f-value for maximum toroidal field (`constraint equation 25`, `iteration variable 35`) +fpinj = 0.40071 * f-value for injection power (`constraint equation 30`, `iteration variable 46`) +fpnetel = 1.0 * f-value for net electric power (`constraint equation 16`, `iteration variable 25`) +fpsepbqar = 1.0 * f-value for maximum Psep*Bt/qAR limit (`constraint equation 68`, `iteration variable 117`) +fstrcase = 0.9967 * f-value for maximum TF coil case Tresca yield criterion +fstrcond = 0.85185 * f-value for maxiumum TF coil conduit Tresca yield criterion +fmaxvvstress = 0.42966 * f-value for maximum permitted stress of the VV +ftburn = 0.9994 * f-value for minimum burn time (`constraint equation 13`, `iteration variable 21`) +ftmargoh = 0.99653 * f-value for central solenoid temperature margin +ftmargtf = 0.99673 * f-value for TF coil temperature margin (`constraint equation 36`, `iteration variable 54`) +fvdump = 0.95837 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 0.50758 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement +ftaulimit = 0.7193 * f-value for lower limit on taup/taueff the ratio of alpha particle to energy + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00038 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 20264000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.9438 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.51868 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.033648 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.294 * toroidal field on axis (T) (`iteration variable 2`) +dene = 8.0667e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fne0 = 0.59638 * f-value for the constraint ne(0) > ne(ped) (`constraint equation 81`) +fvsbrnni = 0.43358 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.1886 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.5961 * safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.083954 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.489 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 89795.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.84212 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 18.429 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28216 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.50416 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080099 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 9.5837 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + +****************************** +* Modifications for reliability analysis: overwrites any previous values +****************************** +* Once through only +ioptimz = -2 * no optimisation +neqns = 3 * distinguish between equality and inequality constraints + +fimp(14) = $fimp_14 * W impurity fraction +psepbqarmax = $psepbqarmax * divertor protection limit +triang = $triang * triangularity diff --git a/ra/metrics/ra_analysis.ipynb b/ra/metrics/ra_analysis.ipynb new file mode 100644 index 0000000..6415482 --- /dev/null +++ b/ra/metrics/ra_analysis.ipynb @@ -0,0 +1,262 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Local reliability: analyse\n", + "\n", + "Evaluate local reliability for 3 uncertain parameters (fimp_14, psepbqarmax and triang). The intention is to try out the normalised severity function (relative to the solution severity); is the sample point more or less violated than the solution point?" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import numpy as np\n", + "import pandas as pd\n", + "from infeas import analyse\n", + "import easyvvuq as uq" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Reading in campaign database.\n", + "Campaign read in. Number of samples = 150\n" + ] + } + ], + "source": [ + "campaign_names = [\n", + " # \"RMS_cons\",\n", + " # \"no_eqs_RMS_cons\",\n", + " # \"high_n_no_eqs_RMS_cons\",\n", + " # \"more_rel\",\n", + " # \"no_thresh\",\n", + " \"sol_infeas_thresh\",\n", + " # \"1p_sol_infeas_thresh\",\n", + "]\n", + "# Campaign name bug: string pattern must match unique campaign\n", + "campaigns = {}\n", + "for campaign_name in campaign_names:\n", + " campaigns[campaign_name] = {}\n", + " campaigns[campaign_name][\"campaign\"], campaigns[campaign_name][\"samples\"] = (\n", + " analyse.read_campaign(campaign_name=campaign_name)\n", + " )" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Analysis\n", + "\n", + "Check out the QOIs from the samples." + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
\n", + "\n", + "\n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + "
rms_vio_constr_res
0
count150.000000
mean0.010361
std0.005925
min-0.004141
25%0.005589
50%0.011199
75%0.014996
max0.021996
\n", + "
" + ], + "text/plain": [ + " rms_vio_constr_res\n", + " 0\n", + "count 150.000000\n", + "mean 0.010361\n", + "std 0.005925\n", + "min -0.004141\n", + "25% 0.005589\n", + "50% 0.011199\n", + "75% 0.014996\n", + "max 0.021996" + ] + }, + "execution_count": 3, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "qois = [\n", + " \"rms_vio_constr_res\",\n", + "]\n", + "campaigns[campaign_name][\"samples\"][qois].describe()" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Distribution of violated constraint residuals" + ] + }, + { + "cell_type": "code", + "execution_count": 13, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": "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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, ax = plt.subplots()\n", + "\n", + "study_cdf_dfs = []\n", + "for campaign_name in campaigns:\n", + " results = campaigns[campaign_name][\"campaign\"].analyse(\n", + " qoi_cols=[\"rms_vio_constr_res\"]\n", + " )\n", + " results.samples.columns = results.samples.columns.droplevel(1)\n", + " samples = results.samples[\"rms_vio_constr_res\"]\n", + " samples = samples.rename(campaign_name)\n", + " study_cdf_dfs.append(samples)\n", + "\n", + "cdfs = pd.concat(study_cdf_dfs, axis=1)\n", + "sns.ecdfplot(data=cdfs, ax=ax)\n", + "ax.set_title(\"large-tokamak reliability analysis: 3 uncertain parameters\")\n", + "ax.set_xlabel(\n", + " \"Requirement violation severity $s$: solution-normalised RMS of violated\\ninequality constraint residuals\"\n", + ")\n", + "ax.set_ylabel(\"CDF\")\n", + "\n", + "# Intersection line\n", + "x, y = ax.lines[0].get_data()\n", + "thresh = 0.0\n", + "# Find index of sign-change around threshold\n", + "thresh_idx = np.nonzero(np.diff(np.sign(x - thresh)))[0]\n", + "y_val = y[thresh_idx[0]]\n", + "ax.axhline(y_val, color=\"grey\", linestyle=\"dashed\")\n", + "ax.axvline(0.0, color=\"grey\", linestyle=\"dashed\")\n", + "ax.annotate(\"Infeasible\", (0.001, 0.8), color=\"red\")\n", + "ax.annotate(\"Feasible\", (-0.0045, 0.8), color=\"blue\")\n", + "ax.annotate(\"Unreliable\", (0.015, 0.05), color=\"red\")\n", + "ax.annotate(\"Reliable\", (0.015, 0.003), color=\"blue\")\n", + "ax.annotate(f\"Reliability\\nR = {y_val:.2}\", (-0.005, 0.05), color=\"green\")\n", + "ax.legend().remove()" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "This gives $R > 0$ for the solution point under uncertainty: 0.033 of the samples were more feasible than the solution point.\n", + "\n", + "However, this normalisation of $s$ is unsatisfactory: it should be the case that $s_{soln} \\leq 0$ (i.e. solver and severity metric agree that solution is feasible). This would remove the need for this normalisation." + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": ".venv", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + }, + "orig_nbformat": 4, + "vscode": { + "interpreter": { + "hash": "0d602a62c005a1edaecc467843c8abc40b106c408f7dd3fdae5e868ff234b67e" + } + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/ra/metrics/ra_eval.ipynb b/ra/metrics/ra_eval.ipynb new file mode 100644 index 0000000..0b82c9c --- /dev/null +++ b/ra/metrics/ra_eval.ipynb @@ -0,0 +1,6134 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Local reliability: evaluate\n", + "\n", + "Evaluate local reliability for 3 uncertain parameters (fimp_14, psepbqarmax and triang). The intention is to try out the normalised severity function (relative to the solution severity); is the sample point more or less violated than the solution point?" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": {}, + "outputs": [], + "source": [ + "import easyvvuq as uq\n", + "import chaospy as cp\n", + "from pathlib import Path\n", + "from infeas.decoder import MfileDecoder" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "metadata": {}, + "outputs": [], + "source": [ + "# Define campaign\n", + "WORK_DIR = \"campaigns\"\n", + "Path(\"campaigns\").mkdir(exist_ok=True)\n", + "campaign = uq.Campaign(name=\"1p_sol_infeas_thresh\", work_dir=WORK_DIR)\n", + "\n", + "# Define parameter space\n", + "# Uncertainties from Alex's SA paper\n", + "\n", + "params = {\n", + " # Default values are at solution point\n", + " \"fimp_14\": {\n", + " \"type\": \"float\",\n", + " # TODO\n", + " \"min\": 5.0e-6,\n", + " \"max\": 1.0e-4,\n", + " \"default\": 5.0e-6,\n", + " }, # ok\n", + " \"psepbqarmax\": {\"type\": \"float\", \"min\": 8.7, \"max\": 10.0, \"default\": 10.0}, # ok\n", + " \"triang\": {\"type\": \"float\", \"min\": 0.4, \"max\": 0.6, \"default\": 0.5}, # ok\n", + "}\n", + "\n", + "# QoIs\n", + "# Violated constraint residuals\n", + "qois = [\n", + " \"rms_vio_constr_res\",\n", + "]" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Next, define a custom decoder to handle Process's mfile output." + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": {}, + "outputs": [], + "source": [ + "# Create encoder and decoder\n", + "encoder = uq.encoders.GenericEncoder(\n", + " template_fname=\"large_tokamak_sol_IN_DAT.template\", target_filename=\"IN.DAT\"\n", + ")\n", + "\n", + "decoder = MfileDecoder(target_filename=\"MFILE.DAT\", output_columns=qois)\n", + "\n", + "cmd = \"process -i IN.DAT\"\n", + "actions = uq.actions.local_execute(encoder, cmd, decoder)\n", + "\n", + "# Add the app\n", + "campaign.add_app(name=\"feasibility\", params=params, actions=actions)" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + " 0%| | 0/90 [00:00 Date: Fri, 22 Mar 2024 16:24:57 +0000 Subject: [PATCH 04/14] Separate get_campaign() and get_samples() --- examples/infeas_analysis_cluster.ipynb | 3 ++- examples/infeas_analysis_local.ipynb | 3 ++- infeas/analyse.py | 34 +++++++++++++++--------- max_net_elec/max_net_elec_analysis.ipynb | 3 ++- min_rmajor/min_rmajor_analysis.ipynb | 3 ++- ra/rms_cons/ra_analysis.ipynb | 2 +- 6 files changed, 31 insertions(+), 17 deletions(-) diff --git a/examples/infeas_analysis_cluster.ipynb b/examples/infeas_analysis_cluster.ipynb index bb54ddd..ab2f4ea 100644 --- a/examples/infeas_analysis_cluster.ipynb +++ b/examples/infeas_analysis_cluster.ipynb @@ -424,7 +424,8 @@ } ], "source": [ - "campaign, samples = analyse.read_campaign(campaign_name=\"example_cluster\")\n", + "campaign = analyse.get_campaign(campaign_name=\"example_cluster\")\n", + "samples = analyse.get_samples(campaign)\n", "samples" ] }, diff --git a/examples/infeas_analysis_local.ipynb b/examples/infeas_analysis_local.ipynb index be53169..0885f2a 100644 --- a/examples/infeas_analysis_local.ipynb +++ b/examples/infeas_analysis_local.ipynb @@ -411,7 +411,8 @@ } ], "source": [ - "campaign, samples = analyse.read_campaign(campaign_name=\"example_local\")\n", + "campaign = analyse.get_campaign(campaign_name=\"example_local\")\n", + "samples = analyse.get_samples(campaign)\n", "samples" ] }, diff --git a/infeas/analyse.py b/infeas/analyse.py index f3c1019..0817813 100644 --- a/infeas/analyse.py +++ b/infeas/analyse.py @@ -9,8 +9,8 @@ from infeas.eval import QOIS, WORK_DIR -def read_campaign(campaign_name: str) -> pd.DataFrame: - """Read in evaluated campaign and return dataframe. +def get_campaign(campaign_name: str) -> uq.campaign.Campaign: + """Read in evaluated campaign and return campaign object. Fetches the latest campaign with matching name. @@ -23,8 +23,6 @@ def read_campaign(campaign_name: str) -> pd.DataFrame: ------- uq.campaign.Campaign easyVVUQ campaign - pd.DataFrame - Evaluation results Raises ------ @@ -52,15 +50,27 @@ def read_campaign(campaign_name: str) -> pd.DataFrame: db_location=db_location_prefixed, name=campaign_name, work_dir=WORK_DIR ) + return campaign + + +def get_samples(campaign: uq.campaign.Campaign) -> pd.DataFrame: + """Get samples from campaign object. + + Parameters + ---------- + campaign : uq.campaign.Campaign + campaign object + + Returns + ------- + pd.DataFrame + evaluated samples + """ samples = campaign.get_collation_result() - sample_count = samples.shape[0] - print(f"Campaign read in. Number of samples = {sample_count}") - - # Drop strange multi-index of 0 - # TODO Commenting out required for reliability analysis work: may break - # other studies - # samples.columns = samples.columns.droplevel(1) - return campaign, samples + + # Drop unnecessary multi-index of 0 + samples.columns = samples.columns.droplevel(1) + return samples def describe_qois(results: pd.DataFrame) -> pd.DataFrame: diff --git a/max_net_elec/max_net_elec_analysis.ipynb b/max_net_elec/max_net_elec_analysis.ipynb index 94ee8b4..ee8f2c9 100644 --- a/max_net_elec/max_net_elec_analysis.ipynb +++ b/max_net_elec/max_net_elec_analysis.ipynb @@ -1247,7 +1247,8 @@ } ], "source": [ - "campaign, results = analyse.read_campaign(campaign_name)\n", + "campaign = analyse.get_campaign(campaign_name)\n", + "results = analyse.get_samples(campaign)\n", "results" ] }, diff --git a/min_rmajor/min_rmajor_analysis.ipynb b/min_rmajor/min_rmajor_analysis.ipynb index 9551910..91d4984 100644 --- a/min_rmajor/min_rmajor_analysis.ipynb +++ b/min_rmajor/min_rmajor_analysis.ipynb @@ -1246,7 +1246,8 @@ } ], "source": [ - "campaign, results = analyse.read_campaign(campaign_name)\n", + "campaign = analyse.get_campaign(campaign_name)\n", + "results = analyse.get_samples(campaign)\n", "results" ] }, diff --git a/ra/rms_cons/ra_analysis.ipynb b/ra/rms_cons/ra_analysis.ipynb index abc5e6c..d33c452 100644 --- a/ra/rms_cons/ra_analysis.ipynb +++ b/ra/rms_cons/ra_analysis.ipynb @@ -52,7 +52,7 @@ " campaigns[campaign_name] = {}\n", " # TODO Do we actually ever need samples? Can get back from campaign later anyway\n", " campaigns[campaign_name][\"campaign\"], campaigns[campaign_name][\"samples\"] = (\n", - " analyse.read_campaign(campaign_name=campaign_name)\n", + " analyse.get_campaign(campaign_name=campaign_name)\n", " )" ] }, From f7841ecd3a1455ef4002cf0c9c327e2c95a4d5d6 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 26 Mar 2024 09:56:24 +0000 Subject: [PATCH 05/14] Remove obsolete optimisation parameter --- ra/metrics/large_tokamak_sol_IN_DAT.template | 1 - 1 file changed, 1 deletion(-) diff --git a/ra/metrics/large_tokamak_sol_IN_DAT.template b/ra/metrics/large_tokamak_sol_IN_DAT.template index f12783e..0f0e4ed 100644 --- a/ra/metrics/large_tokamak_sol_IN_DAT.template +++ b/ra/metrics/large_tokamak_sol_IN_DAT.template @@ -69,7 +69,6 @@ ixc = 49 * fstrcond ixc = 50 * fiooic boundu(50) = 1.0 ixc = 51 * fvdump -ixc = 52 * vdalw boundu(52) = 10.0 ixc = 53 * fjprot ixc = 54 * ftmargtf From 81b5c4f22cc6ab9b918c527aa78ad61edd36fb73 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 26 Mar 2024 10:04:45 +0000 Subject: [PATCH 06/14] Normalised and non-normalised severity function --- ra/metrics/ra_analysis.ipynb | 225 +++++++++++++++++++++++++---------- ra/metrics/ra_eval.ipynb | 40 ++++--- 2 files changed, 182 insertions(+), 83 deletions(-) diff --git a/ra/metrics/ra_analysis.ipynb b/ra/metrics/ra_analysis.ipynb index 6415482..1f03309 100644 --- a/ra/metrics/ra_analysis.ipynb +++ b/ra/metrics/ra_analysis.ipynb @@ -11,7 +11,7 @@ }, { "cell_type": "code", - "execution_count": 1, + "execution_count": 10, "metadata": {}, "outputs": [], "source": [ @@ -25,7 +25,7 @@ }, { "cell_type": "code", - "execution_count": 2, + "execution_count": 11, "metadata": {}, "outputs": [ { @@ -33,27 +33,24 @@ "output_type": "stream", "text": [ "Reading in campaign database.\n", - "Campaign read in. Number of samples = 150\n" + "Reading in campaign database.\n" ] } ], "source": [ "campaign_names = [\n", - " # \"RMS_cons\",\n", - " # \"no_eqs_RMS_cons\",\n", - " # \"high_n_no_eqs_RMS_cons\",\n", - " # \"more_rel\",\n", - " # \"no_thresh\",\n", - " \"sol_infeas_thresh\",\n", - " # \"1p_sol_infeas_thresh\",\n", + " \"3p_infeas_sol_no_norm\", # 3 params, infeasable solution, no severity normalisation, unc params expanded to include solution\n", + " \"3p_infeas_sol_norm\", # Same, but but solution severity normalisation\n", "]\n", + "\n", + "# 1p: triang\n", + "# 2p: triang, psepbqarmax\n", + "# 3p: triang, psepbqarmax, fimp_14\n", + "\n", "# Campaign name bug: string pattern must match unique campaign\n", "campaigns = {}\n", "for campaign_name in campaign_names:\n", - " campaigns[campaign_name] = {}\n", - " campaigns[campaign_name][\"campaign\"], campaigns[campaign_name][\"samples\"] = (\n", - " analyse.read_campaign(campaign_name=campaign_name)\n", - " )" + " campaigns[campaign_name] = analyse.get_campaign(campaign_name)" ] }, { @@ -61,14 +58,12 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "## Analysis\n", - "\n", - "Check out the QOIs from the samples." + "Peek at samples from one campaign: check out a responses." ] }, { "cell_type": "code", - "execution_count": 3, + "execution_count": 12, "metadata": {}, "outputs": [ { @@ -84,20 +79,16 @@ " vertical-align: top;\n", " }\n", "\n", - " .dataframe thead tr th {\n", - " text-align: left;\n", + " .dataframe thead th {\n", + " text-align: right;\n", " }\n", "\n", "\n", " \n", - " \n", + " \n", " \n", " \n", " \n", - " \n", - " \n", - " \n", - " \n", " \n", " \n", " \n", @@ -106,50 +97,49 @@ " \n", " \n", " \n", - " \n", + " \n", " \n", " \n", " \n", - " \n", + " \n", " \n", " \n", " \n", - " \n", + " \n", " \n", " \n", " \n", - " \n", + " \n", " \n", " \n", " \n", - " \n", + " \n", " \n", " \n", " \n", - " \n", + " \n", " \n", " \n", " \n", - " \n", + " \n", " \n", " \n", "
rms_vio_constr_res
0
mean0.0103610.069566
std0.0059250.005863
min-0.0041410.058832
25%0.0055890.065395
50%0.0111990.068698
75%0.0149960.073704
max0.0219960.083282
\n", "" ], "text/plain": [ - " rms_vio_constr_res\n", - " 0\n", - "count 150.000000\n", - "mean 0.010361\n", - "std 0.005925\n", - "min -0.004141\n", - "25% 0.005589\n", - "50% 0.011199\n", - "75% 0.014996\n", - "max 0.021996" + " rms_vio_constr_res\n", + "count 150.000000\n", + "mean 0.069566\n", + "std 0.005863\n", + "min 0.058832\n", + "25% 0.065395\n", + "50% 0.068698\n", + "75% 0.073704\n", + "max 0.083282" ] }, - "execution_count": 3, + "execution_count": 12, "metadata": {}, "output_type": "execute_result" } @@ -158,7 +148,8 @@ "qois = [\n", " \"rms_vio_constr_res\",\n", "]\n", - "campaigns[campaign_name][\"samples\"][qois].describe()" + "samples = analyse.get_samples(campaigns[\"3p_infeas_sol_no_norm\"])\n", + "samples[qois].describe()" ] }, { @@ -173,10 +164,52 @@ "cell_type": "code", "execution_count": 13, "metadata": {}, + "outputs": [], + "source": [ + "response_series = []\n", + "for campaign_name in campaigns:\n", + " # TODO How are these different?\n", + " # samples = campaign.get_collation_result()\n", + " # samples = campaign.analyse(qoi_cols=qois)\n", + "\n", + " results = campaigns[campaign_name].analyse(qoi_cols=qois)\n", + " results.samples.columns = results.samples.columns.droplevel(1)\n", + " samples = results.samples[\"rms_vio_constr_res\"]\n", + " # Response series for one campaign\n", + " samples = samples.rename(campaign_name)\n", + " response_series.append(samples)\n", + "\n", + "# Concatenate list of response series into single df\n", + "campaigns_responses = pd.concat(response_series, axis=1)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Preliminary result\n", + "\n", + "3 uncertain params, no normalisation of severity function, unc params extended to include solution point." + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "metadata": {}, "outputs": [ { "data": { - "image/png": "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", + "text/plain": [ + "Text(0, 0.5, 'CDF')" + ] + }, + "execution_count": 14, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": "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", "text/plain": [ "
" ] @@ -187,26 +220,69 @@ ], "source": [ "fig, ax = plt.subplots()\n", + "sns.ecdfplot(data=campaigns_responses[\"3p_infeas_sol_no_norm\"], ax=ax)\n", + "ax.set_title(\"Large tokamak reliability analysis: 3 uncertain parameters\")\n", + "ax.set_xlabel(\n", + " \"Requirement violation severity $s$: RMS of violated\\ninequality constraint residuals\"\n", + ")\n", + "ax.set_ylabel(\"CDF\")\n", + "# ax.set_xlim(0.0)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "As\n", + "$$R = F_s(0\\mid\\theta),$$\n", + "Reliability $R = 0$ for this solution point under uncertainty. There is no sample point where $s = 0$; no samples are feasible. This is probably due to the solution point itself not being feasible: $s = 0.0604$ for the solution." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Normalised severity\n", "\n", - "study_cdf_dfs = []\n", - "for campaign_name in campaigns:\n", - " results = campaigns[campaign_name][\"campaign\"].analyse(\n", - " qoi_cols=[\"rms_vio_constr_res\"]\n", - " )\n", - " results.samples.columns = results.samples.columns.droplevel(1)\n", - " samples = results.samples[\"rms_vio_constr_res\"]\n", - " samples = samples.rename(campaign_name)\n", - " study_cdf_dfs.append(samples)\n", - "\n", - "cdfs = pd.concat(study_cdf_dfs, axis=1)\n", - "sns.ecdfplot(data=cdfs, ax=ax)\n", - "ax.set_title(\"large-tokamak reliability analysis: 3 uncertain parameters\")\n", + "Try normalising the severity by subtracting the severity of the solution." + ] + }, + { + "cell_type": "code", + "execution_count": 33, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "Text(0.004, 0.13166666666666668, 'Reliability R = 0.11')" + ] + }, + "execution_count": 33, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": "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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, ax = plt.subplots()\n", + "sns.ecdfplot(data=campaigns_responses[\"3p_infeas_sol_norm\"], ax=ax)\n", + "ax.set_title(\"Large tokamak reliability analysis: 3 uncertain parameters\")\n", "ax.set_xlabel(\n", " \"Requirement violation severity $s$: solution-normalised RMS of violated\\ninequality constraint residuals\"\n", ")\n", "ax.set_ylabel(\"CDF\")\n", "\n", - "# Intersection line\n", + "# Intersection lines\n", "x, y = ax.lines[0].get_data()\n", "thresh = 0.0\n", "# Find index of sign-change around threshold\n", @@ -214,12 +290,31 @@ "y_val = y[thresh_idx[0]]\n", "ax.axhline(y_val, color=\"grey\", linestyle=\"dashed\")\n", "ax.axvline(0.0, color=\"grey\", linestyle=\"dashed\")\n", - "ax.annotate(\"Infeasible\", (0.001, 0.8), color=\"red\")\n", - "ax.annotate(\"Feasible\", (-0.0045, 0.8), color=\"blue\")\n", - "ax.annotate(\"Unreliable\", (0.015, 0.05), color=\"red\")\n", - "ax.annotate(\"Reliable\", (0.015, 0.003), color=\"blue\")\n", - "ax.annotate(f\"Reliability\\nR = {y_val:.2}\", (-0.005, 0.05), color=\"green\")\n", - "ax.legend().remove()" + "\n", + "# Annotation positions\n", + "reliable_x = 0.015\n", + "reliable_y_pad = 0.05\n", + "# TODO rel to center?\n", + "ax.annotate(\"Infeasible\", (0.0005, 0.8), color=\"red\")\n", + "ax.annotate(\"Feasible\", (-0.0035, 0.8), color=\"blue\")\n", + "ax.annotate(\n", + " \"Unreliable\",\n", + " (reliable_x, y_val + reliable_y_pad),\n", + " color=\"red\",\n", + " verticalalignment=\"center\",\n", + ")\n", + "ax.annotate(\n", + " \"Reliable\",\n", + " (reliable_x, y_val - reliable_y_pad),\n", + " color=\"blue\",\n", + " verticalalignment=\"center\",\n", + ")\n", + "ax.annotate(\n", + " f\"Reliability R = {y_val:.2}\",\n", + " (0.004, y_val + reliable_y_pad / 2),\n", + " color=\"green\",\n", + " verticalalignment=\"center\",\n", + ")" ] }, { diff --git a/ra/metrics/ra_eval.ipynb b/ra/metrics/ra_eval.ipynb index 0b82c9c..469c7e8 100644 --- a/ra/metrics/ra_eval.ipynb +++ b/ra/metrics/ra_eval.ipynb @@ -11,7 +11,7 @@ }, { "cell_type": "code", - "execution_count": 5, + "execution_count": 1, "metadata": {}, "outputs": [], "source": [ @@ -23,14 +23,14 @@ }, { "cell_type": "code", - "execution_count": 6, + "execution_count": 2, "metadata": {}, "outputs": [], "source": [ "# Define campaign\n", "WORK_DIR = \"campaigns\"\n", "Path(\"campaigns\").mkdir(exist_ok=True)\n", - "campaign = uq.Campaign(name=\"1p_sol_infeas_thresh\", work_dir=WORK_DIR)\n", + "campaign = uq.Campaign(name=\"3p_infeas_sol\", work_dir=WORK_DIR)\n", "\n", "# Define parameter space\n", "# Uncertainties from Alex's SA paper\n", @@ -64,7 +64,7 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": 3, "metadata": {}, "outputs": [], "source": [ @@ -84,7 +84,7 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": 4, "metadata": {}, "outputs": [ { @@ -6071,20 +6071,24 @@ "source": [ "# Create PCE sampler\n", "# Vary 3 uncertain inputs\n", - "# TODO Try 1 param for now\n", + "\n", + "# 1p: triang\n", + "# 2p: triang, psepbqarmax\n", + "# 3p: triang, psepbqarmax, fimp_14\n", + "\n", "vary = {\n", - " # \"fimp_14\": cp.Uniform(\n", - " # # Original\n", - " # # 1.0e-6,\n", - " # # 1.0e-4,\n", - " # # Modified to include soln\n", - " # 5.0e-6,\n", - " # 1.0e-5,\n", - " # ),\n", - " # \"psepbqarmax\": cp.Uniform(\n", - " # 8.7,\n", - " # 10.0,\n", - " # ),\n", + " \"fimp_14\": cp.Uniform(\n", + " # Original\n", + " # 1.0e-6,\n", + " # 1.0e-4,\n", + " # Modified to include soln\n", + " 5.0e-6,\n", + " 1.0e-5,\n", + " ),\n", + " \"psepbqarmax\": cp.Uniform(\n", + " 8.7,\n", + " 10.0,\n", + " ),\n", " \"triang\": cp.Uniform(\n", " 0.4,\n", " 0.6,\n", From 2b4d1b0212be562d6ccff761fb45b3d91e1cd724 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 26 Mar 2024 10:05:41 +0000 Subject: [PATCH 07/14] Remove normalisation --- infeas/decoder.py | 12 +----------- 1 file changed, 1 insertion(+), 11 deletions(-) diff --git a/infeas/decoder.py b/infeas/decoder.py index 77c9af0..89d4f31 100644 --- a/infeas/decoder.py +++ b/infeas/decoder.py @@ -101,17 +101,7 @@ def _process_raw_data(self, raw_data: Dict[str, Any]) -> Dict[str, float]: rms_vio_constr_res = np.sqrt(np.mean(vio_constrs**2)) # TODO Would be better to override method in notebook for testing - # Try subtracting solution RMS cons threshold - rms_cons_sol_thresh = 0.06034437205737559 - over_tol_rms_vio_constr_res = rms_vio_constr_res - rms_cons_sol_thresh - - # Don't coerce to 0; it's fine if some severitiy values are -ve: - # Corresponds to feasible solutions - # over_tol_rms_vio_constr_res = over_tol_rms_vio_constr_res * ( - # over_tol_rms_vio_constr_res > 0 - # ) - responses["rms_vio_constr_res"] = over_tol_rms_vio_constr_res - # responses["rms_vio_constr_res"] = rms_vio_constr_res + responses["rms_vio_constr_res"] = rms_vio_constr_res # TODO Don't use RMS violated inequality constraints: use different # reliability metric From a8c117e88e12289e3cd9eeabb7d81a2b64807366 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 2 Apr 2024 11:42:11 +0100 Subject: [PATCH 08/14] Copy solution vector and/or convert to inequalities --- infeas/mfile_to_in.py | 161 ++++++++++++++++++++++++++++++------------ 1 file changed, 116 insertions(+), 45 deletions(-) diff --git a/infeas/mfile_to_in.py b/infeas/mfile_to_in.py index f5867bc..45ec027 100644 --- a/infeas/mfile_to_in.py +++ b/infeas/mfile_to_in.py @@ -9,6 +9,7 @@ from pathlib import Path from typing import Optional, Sequence import re +from shutil import copy """Unfortunately, f-values have to be detected in two ways. This is because @@ -120,34 +121,108 @@ def convert( - mfile_name: str, original_in_name: str, - sol_in_name: str, + new_in_name: str, no_optimisation: Optional[bool] = True, n_equalities: Optional[int] = None, + mfile_name: Optional[str] = None, + remove_f_value_inits: Optional[bool] = False, ) -> Path: - """Convert mfile to input file, preserving optimisation parameter vector. + """Convert input file to a modified new one. + + If input file and n_equalities provided, just convert input to inequalities. + If mfile is provided, copy solution vector to new input file. Parameters ---------- - mfile_name : str - name of mfile to convert original_in_name : str the IN.DAT used to create the MFILE.DAT solution - sol_in_name : str - name of input file to be created at solution vector + new_in_name : str + modified input file to be created no_optimisation : Optional[bool], optional convert IN.DAT to non-optimising run, by default True n_equalities : Optional[int], optional how many of the constraints to make equalities. The first n_equalities constraints will be left as equalities, the rest converted to inequalities, by default None + mfile_name : Optional[str], optional + if mfile supplied, extract solution vector into new input file, by + default None + remove_f_value_inits : Optional[bool], optional + remove f-value initialisations, e.g. `fthresh = 0.8`, by default False Returns ------- Path path to solution input file """ + # Create new input file, optionally overwriting with solution vector + if mfile_name: + # Extract solution vector from mfile, copy into new input file + sol_in_dat_path = overwrite_sol_vector( + mfile_name=mfile_name, + original_in_name=original_in_name, + new_in_name=new_in_name, + ) + else: + # Just copy original input to new path + sol_in_dat_path = copy(original_in_name, new_in_name) + + # Additional modifications to top of input file + top_content = [] + if no_optimisation: + top_content.extend(["* Once through only: no optimisation", "ioptimz = -2"]) + + if n_equalities is not None: + # Write neqns count + top_content.extend( + [ + "* Define number of equality constraints, and", + "* use inequality constraints: corresponding f-values removed", + f"neqns = {n_equalities}", + ] + ) + + new_content = [line + "\n" for line in top_content] + + # Write top and main content, removing f-values if necessary + with open(sol_in_dat_path, "r") as f: + content = f.readlines() + + if n_equalities: + # Remove all f-values as opt params + main_content = remove_f_values(content, remove_f_value_inits) + else: + main_content = content + + new_content.extend(main_content) + + with open(sol_in_dat_path, "w") as f: + f.writelines(new_content) + + return sol_in_dat_path + + +def overwrite_sol_vector( + mfile_name: str, original_in_name: str, new_in_name: str +) -> Path: + """Extract solution vector from mfile, copy into new input file. + + Parameters + ---------- + mfile_name : str + output containing solution vector + original_in_name : str + original input file + new_in_name : str + input file with initial optimisation parameter vector overwritten with + the solution vector + + Returns + ------- + Path + path to new solution vector input file + """ # First, extract the solution (optimisation parameters) from the mfile # Create Mfile object from mfile mfile_path = Path(mfile_name) @@ -191,61 +266,39 @@ def convert( # Otherwise update new IN.DAT value with solution value in_dat.add_parameter(var_name, value) - print(f"Solution f-values ignored = {dropped_sol_f_value_count}") + print(f"Optimisation parameter f-values ignored = {dropped_sol_f_value_count}") # Write out new IN.DAT, with optimisation parameters set to original # solution vector - sol_in_dat_path = Path(sol_in_name) + sol_in_dat_path = Path(new_in_name) in_dat.write_in_dat(sol_in_dat_path) - - # Additional modifications to top of input file - top_content = [] - if no_optimisation: - top_content.extend(["* Once through only: no optimisation", "ioptimz = -2"]) - - if n_equalities is not None: - # Write neqns count - top_content.extend( - [ - "* Define number of equality constraints, and", - "* use inequality constraints: corresponding f-values removed", - f"neqns = {n_equalities}", - ] - ) - - new_content = [line + "\n" for line in top_content] - - # Write top and main content, removing f-values if necessary - with open(sol_in_dat_path, "r+") as f: - content = f.readlines() - f.seek(0, 0) - - if n_equalities: - # Remove all f-values - main_content = remove_f_values(content) - else: - main_content = content - - new_content.extend(main_content) - f.writelines(new_content) - return sol_in_dat_path -def remove_f_values(lines_with_f_values: Sequence[str]) -> list[str]: +def remove_f_values( + lines_with_f_values: Sequence[str], remove_f_value_inits: bool +) -> list[str]: """Remove f-value optimisation parameters from input file lines. + Removes `ixc = 23 * fthresh` line if opt param 23 is f-value. + Optionally removes f-value value initialisations `fthresh = 0.8`. + Parameters ---------- lines_with_f_values : Sequence[str] lines from original input file + remove_f_value_inits : bool + remove f-value initialisations, e.g. `fthresh = 0.8` Returns ------- list[str] lines with f-value optimisation parameters removed """ + # f-value opt params removed (ixc = 23 * fdene) f_value_removal_count = 0 + # f-value initialisations removed (fthresh = 0.8) + f_value_init_removal_count = 0 # Lines that will be included in new IN.DAT lines_without_f_values = [] # Opt params beginning with f that aren't on the ignore list @@ -255,10 +308,14 @@ def remove_f_values(lines_with_f_values: Sequence[str]) -> list[str]: # Don't also search for comment (e.g. ixc = 23 * fdene) as it may not be there: # Just look for opt param number opt_param_re = re.compile(r"ixc\s*=\s*(\d+)") + # If not already found in the f-value opt param number list, attempt to # find any opt params starting with f (depends on "*" comment) opt_param_beginning_with_f_re = re.compile(r"ixc\s*=\s*(\d+)\s*\*\s*(f\w+)") + # Any line starting with f (could be f-value value definition) + line_starting_with_f_re = re.compile(r"^(f\w*)") + for line in lines_with_f_values: matches = opt_param_re.match(line) if matches is not None: @@ -272,9 +329,6 @@ def remove_f_values(lines_with_f_values: Sequence[str]) -> list[str]: f_value_removal_count += 1 continue - # Non f-value opt param or other line: keep - lines_without_f_values.append(line) - # Check if line contains opt param beginning with an f: # Not known f-value (would be in numbers list), but suspicious as could be matches = opt_param_beginning_with_f_re.match(line) @@ -285,6 +339,20 @@ def remove_f_values(lines_with_f_values: Sequence[str]) -> list[str]: # Could be an f-value suspect_opt_params_beginning_with_f.append(line) + # Optionally, remove any f-value initialisations + # e.g. `fthresh = 0.8` + if remove_f_value_inits: + matches = line_starting_with_f_re.match(line) + if matches is not None: + if matches.group(1) not in STARTS_WITH_F_BUT_NOT_F_VALUE_NAMES: + # Found f-value initialisation: drop the line + f_value_init_removal_count += 1 + continue + + # Non f-value opt param, (optionally not) f-value initialisation or other + # line: keep + lines_without_f_values.append(line) + # Print out potential f-value vars if any if len(suspect_opt_params_beginning_with_f) > 0: raise ValueError( @@ -293,4 +361,7 @@ def remove_f_values(lines_with_f_values: Sequence[str]) -> list[str]: else: print(f"f-values removed as optimisation parameters = {f_value_removal_count}") + if remove_f_value_inits: + print(f"f-value initialisations removed = {f_value_init_removal_count}") + return lines_without_f_values From f7edfd64a82edbc17b0d180c49995d61dc78cf80 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 2 Apr 2024 11:46:44 +0100 Subject: [PATCH 09/14] Format IN.DATs for easy comparisons --- .../large_tokamak/standardise_input.ipynb | 59 +++++++++++++++++++ 1 file changed, 59 insertions(+) create mode 100644 solution_points/large_tokamak/standardise_input.ipynb diff --git a/solution_points/large_tokamak/standardise_input.ipynb b/solution_points/large_tokamak/standardise_input.ipynb new file mode 100644 index 0000000..5fbd306 --- /dev/null +++ b/solution_points/large_tokamak/standardise_input.ipynb @@ -0,0 +1,59 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Standardise IN.DAT\n", + "\n", + "Read in and write out an IN.DAT to get it into a standard form: useful for comparisons/diffs." + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "from process.io.in_dat import InDat\n", + "from pathlib import Path" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [], + "source": [ + "original_in_name = \"lt_ineqs_IN.DAT\"\n", + "standardised_in_dat_name = \"lt_ineqs_std_IN.DAT\"\n", + "\n", + "original_in_dat_path = Path(original_in_name)\n", + "standardised_in_dat_path = Path(standardised_in_dat_name)\n", + "in_dat = InDat(original_in_dat_path)\n", + "in_dat.write_in_dat(standardised_in_dat_path)" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "easyVVUQ-process", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} From fae7adaa0fb4319fe5ee49d59bd8d82cee45b2f1 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Tue, 2 Apr 2024 16:18:53 +0100 Subject: [PATCH 10/14] Handle individual array elements in mfile_to_in converter --- infeas/mfile_to_in.py | 17 ++++++++++++++++- 1 file changed, 16 insertions(+), 1 deletion(-) diff --git a/infeas/mfile_to_in.py b/infeas/mfile_to_in.py index 45ec027..2b5da5b 100644 --- a/infeas/mfile_to_in.py +++ b/infeas/mfile_to_in.py @@ -223,6 +223,9 @@ def overwrite_sol_vector( Path path to new solution vector input file """ + # Pattern for single array element, e.g. fimp(13) + array_el_re = re.compile(r"(\w+)\((\d+)\)") + # First, extract the solution (optimisation parameters) from the mfile # Create Mfile object from mfile mfile_path = Path(mfile_name) @@ -264,7 +267,19 @@ def overwrite_sol_vector( continue # Otherwise update new IN.DAT value with solution value - in_dat.add_parameter(var_name, value) + matches = array_el_re.match(var_name) + if matches is not None: + # Found a single array element e.g. fimp(13) + array_name = matches.group(1) + array_index = matches.group(2) + py_array_index = int(array_index) - 1 + + in_dat.change_array( + array_name=array_name, array_index=py_array_index, array_value=value + ) + else: + # Set individual parameter + in_dat.add_parameter(var_name, value) print(f"Optimisation parameter f-values ignored = {dropped_sol_f_value_count}") From 8901d4a90595300a74b116a6f1518258e21653cf Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Thu, 4 Apr 2024 09:54:16 +0100 Subject: [PATCH 11/14] Investigate finding feasible non-optimising solutions --- .../large_tokamak/constraint_residuals.csv | 27 + .../large_tokamak/lt_feas_non_opt.ipynb | 634 ++++++ .../large_tokamak/lt_ineqs_10_evals_IN.DAT | 594 ++++++ .../large_tokamak/lt_ineqs_10_evals_MFILE.DAT | 1714 +++++++++++++++++ .../lt_ineqs_10_evals_sol_IN.DAT | 443 +++++ .../lt_ineqs_10_evals_sol_MFILE.DAT | 1488 ++++++++++++++ .../large_tokamak/lt_ineqs_6_evals_IN.DAT | 594 ++++++ .../large_tokamak/lt_ineqs_6_evals_MFILE.DAT | 1714 +++++++++++++++++ .../large_tokamak/lt_ineqs_6_evals_sol_IN.DAT | 443 +++++ .../lt_ineqs_6_evals_sol_MFILE.DAT | 1488 ++++++++++++++ solution_points/large_tokamak/lt_ineqs_IN.DAT | 594 ++++++ .../large_tokamak/lt_ineqs_MFILE.DAT | 1714 +++++++++++++++++ .../large_tokamak/lt_ineqs_sol_IN.DAT | 443 +++++ .../large_tokamak/lt_ineqs_sol_MFILE.DAT | 1488 ++++++++++++++ .../large_tokamak/lt_ineqs_std_IN.DAT | 437 +++++ solution_points/large_tokamak/lt_orig_IN.DAT | 613 ++++++ 16 files changed, 14428 insertions(+) create mode 100644 solution_points/large_tokamak/constraint_residuals.csv create mode 100644 solution_points/large_tokamak/lt_feas_non_opt.ipynb create mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_MFILE.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_sol_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_MFILE.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_sol_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_MFILE.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_sol_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_std_IN.DAT create mode 100644 solution_points/large_tokamak/lt_orig_IN.DAT diff --git a/solution_points/large_tokamak/constraint_residuals.csv b/solution_points/large_tokamak/constraint_residuals.csv new file mode 100644 index 0000000..2ef67e7 --- /dev/null +++ b/solution_points/large_tokamak/constraint_residuals.csv @@ -0,0 +1,27 @@ +Constraint name ,Constraint number ,6 eval opt ,6 eval non-opt ,10 eval opt ,10 eval non-opt +Beta_consistency_normalised_residue ,(eq_con001) ,7.1473E-07 ,-2.9327E-05 ,7.1473E-07 ,-2.9327E-05 +Global_power_balance_consistencynormalised_residue ,(eq_con002) ,1.4409E-07 ,-3.2800E-05 ,1.4409E-07 ,-3.2800E-05 +Radial_build_consistencynormalised_residue ,(eq_con011) ,1.1031E-10 ,-4.4154E-06 ,1.1031E-10 ,-4.4154E-06 +Density_upper_limit ,(ineq_con005) ,1.3930E-03 ,1.3943E-03 ,1.3930E-03 ,1.3943E-03 +Neutron_wall_load_upper_limit ,(ineq_con008) ,9.5789E-01 ,9.5801E-01 ,9.5789E-01 ,9.5801E-01 +Fusion_power_upper_limit_ ,(ineq_con009) ,8.4017E-01 ,8.4028E-01 ,8.4017E-01 ,8.4028E-01 +Burn_time_lower_limit ,(ineq_con013) ,1.2685E-02 ,1.2618E-02 ,1.2685E-02 ,1.2618E-02 +L-H_power_threshold_limit ,(ineq_con015) ,4.2367E-01 ,4.2362E-01 ,4.2367E-01 ,4.2362E-01 +Injection_power_upper_limit ,(ineq_con030) ,1.6466E+00 ,1.6464E+00 ,1.6466E+00 ,1.6464E+00 +Net_electric_power_lower_limit_ ,(ineq_con016) ,3.2836E-02 ,3.2710E-02 ,3.2836E-02 ,3.2710E-02 +Beta_upper_limit ,(ineq_con024) ,2.1524E-02 ,2.1518E-02 ,2.1524E-02 ,2.1518E-02 +Peak_toroidal_field_upper_limit ,(ineq_con025) ,1.4433E-01 ,1.4433E-01 ,1.4433E-01 ,1.4433E-01 +CS_coil_EOF_current_density_limit ,(ineq_con026) ,6.1201E-02 ,6.1085E-02 ,6.1201E-02 ,6.1085E-02 +CS_coil_BOP_current_density_limit ,(ineq_con027) ,1.4929E-01 ,1.4919E-01 ,1.4929E-01 ,1.4919E-01 +I_op_/_I_critical_(TF_coil) ,(ineq_con033) ,1.5492E-03 ,1.5277E-03 ,1.5492E-03 ,1.5277E-03 +Dump_voltage_upper_limit_ ,(ineq_con034) ,7.5582E-04 ,7.7153E-04 ,7.5582E-04 ,7.7153E-04 +J_winding_pack/J_protection_limit ,(ineq_con035) ,3.2194E-03 ,3.2083E-03 ,3.2194E-03 ,3.2083E-03 +TF_coil_temp._margin_lower_limit_ ,(ineq_con036) ,2.3306E-01 ,2.3300E-01 ,2.3306E-01 ,2.3300E-01 +CS_temperature_margin_lower_limit ,(ineq_con060) ,2.7544E-02 ,2.7346E-02 ,2.7544E-02 ,2.7346E-02 +taup/taueff_ ,(ineq_con062) ,5.8727E-03 ,5.8857E-03 ,5.8727E-03 ,5.8857E-03 +Dump_time_set_by_VV_stress_ ,(ineq_con065) ,1.2723E+00 ,1.2723E+00 ,1.2723E+00 ,1.2723E+00 +CS_Tresca_yield_criterion ,(ineq_con072) ,2.1059E-03 ,2.0721E-03 ,2.1059E-03 ,2.0721E-03 +ne0_>_neped_ ,(ineq_con081) ,6.7365E-01 ,6.7365E-01 ,6.7365E-01 ,6.7365E-01 +Upper_Lim._on_Psep_*_Bt_/_q_A_R ,(ineq_con068) ,2.7816E-03 ,2.8676E-03 ,2.7816E-03 ,2.8676E-03 +TF_coil_case_stress_upper_limit ,(ineq_con031) ,1.3727E-03 ,1.3721E-03 ,1.3727E-03 ,1.3721E-03 +TF_coil_conduit_stress_upper_lim_ ,(ineq_con032) ,1.7478E-01 ,1.7478E-01 ,1.7478E-01 ,1.7478E-01 diff --git a/solution_points/large_tokamak/lt_feas_non_opt.ipynb b/solution_points/large_tokamak/lt_feas_non_opt.ipynb new file mode 100644 index 0000000..7bd5368 --- /dev/null +++ b/solution_points/large_tokamak/lt_feas_non_opt.ipynb @@ -0,0 +1,634 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Convert LT to inequality problem, then get feasible solution within uncertain bounds" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "%load_ext autoreload\n", + "%autoreload 2\n", + "from infeas.mfile_to_in import convert\n", + "import pandas as pd" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Convert original input file to inequalities\n", + "\n", + "Take original LT IN.DAT (`lt_orig_IN.DAT`). Convert it to an inequalities input file (`lt_ineqs_IN.DAT`), maintaining any f-value initialisations." + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "f-values removed as optimisation parameters = 22\n" + ] + }, + { + "data": { + "text/plain": [ + "'lt_ineqs_IN.DAT'" + ] + }, + "execution_count": 2, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "convert(\n", + " original_in_name=\"lt_orig_IN.DAT\",\n", + " new_in_name=\"lt_ineqs_IN.DAT\",\n", + " no_optimisation=False,\n", + " n_equalities=3,\n", + " remove_f_value_inits=False,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Now run with VMCON, modified to converge on feasible solutions only. Result is inequality-solved, completely feasible solution (`lt_ineqs_MFILE.DAT`).\n", + "\n", + "## Create once-through input file from feasible solution point for UQ studies\n", + "\n", + "Use the feasible solution vector to create a once-through (non-optimising) input file for UQ studies." + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Optimisation parameter f-values ignored = 0\n", + "f-values removed as optimisation parameters = 0\n" + ] + }, + { + "data": { + "text/plain": [ + "PosixPath('lt_ineqs_sol_IN.DAT')" + ] + }, + "execution_count": 3, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "convert(\n", + " original_in_name=\"lt_ineqs_IN.DAT\",\n", + " mfile_name=\"lt_ineqs_MFILE.DAT\",\n", + " new_in_name=\"lt_ineqs_sol_IN.DAT\",\n", + " no_optimisation=True,\n", + " n_equalities=3,\n", + " remove_f_value_inits=False,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Checking the new non-optimising (once-through) solution input file\n", + "\n", + "### Is the input file the same, just starting at the solution vector?\n", + "\n", + "Want to compare `lt_ineqs_IN.DAT` (original optimising input) with `lt_ineqs_sol_IN.DAT` (solution vector non-optimising input) to see the differences, which should just be the optimisation parameters. Loads of diffs, so get original input into standard form (using `standardise_input.ipynb`) to get `lt_ineqs_std_IN.DAT`. Then compare `lt_ineqs_std_IN.DAT` with `lt_ineqs_sol_IN.DAT`: diffs should just be solution vector.\n", + "\n", + "```\n", + "diff lt_ineqs_std_IN.DAT lt_ineqs_sol_IN.DAT --side-by-side --suppress-common-lines\n", + "```\n", + "\n", + "Result: only the solution vector is different in the new input file, `lt_ineqs_sol_IN.DAT`: the optimisation parameters are initialised at the solution point.\n", + "\n", + "### Does the once-through input produce a feasible solution?\n", + "\n", + "`lt_ineqs_sol_IN.DAT` is a once-through file that should produce a the same feasible output as in the original (optimising) case. Run the once-through input file to check this.\n", + "\n", + "When running it to produce `lt_ineqs_sol_MFILE.DAT` however, 2 inequality constraints are violated (16 and 35 are negative). The solution vector that was feasible, obtained when optimising in the previous step, doesn't produce a feasible solution when running once-through; it should.\n", + "\n", + "### Possible reasons for optimising and non-optimising solution differences\n", + "\n", + "Perhaps an example of non-idempotence: could remove by running models repetitively. Perhaps need to increase model calls to 6/10/beyond? Let's test this." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Try multiple model evaluations: 6 evals\n", + "\n", + "Use Process fork to evaluate models 6 times, with modified VMCON convergence criterion.\n", + "\n", + "Run `lt_ineqs_6_evals_IN.DAT` (copy of `lt_ineqs_IN.DAT` to avoid overwriting original MFILE): the original LT input file, but converted to inequalities. \n", + "\n", + "Converges: all ineqs feasible (positive) (`lt_ineqs_6_evals_MFILE.DAT`).\n", + "\n", + "Now convert this to a once-through input file at the solution vector." + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Optimisation parameter f-values ignored = 0\n", + "f-values removed as optimisation parameters = 0\n" + ] + }, + { + "data": { + "text/plain": [ + "PosixPath('lt_ineqs_6_evals_sol_IN.DAT')" + ] + }, + "execution_count": 4, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "convert(\n", + " original_in_name=\"lt_ineqs_6_evals_IN.DAT\",\n", + " mfile_name=\"lt_ineqs_6_evals_MFILE.DAT\",\n", + " new_in_name=\"lt_ineqs_6_evals_sol_IN.DAT\",\n", + " no_optimisation=True,\n", + " n_equalities=3,\n", + " remove_f_value_inits=False,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Run this `lt_ineqs_6_evals_sol_IN.DAT`. No ineq constraints are violated (negative) in the output; the once-through solution is feasible.\n", + "\n", + "**To ensure a feasible optimised solution and a feasible once-through solution at that solution vector, need to evaluate models 6 times.**\n", + "\n", + "## Do constraint residuals differ between optimised and non-optimised case?\n", + "\n", + "The optimised solution is feasible. The once-through solution, at the same solution vector, is also feasible. But are the constraint residuals the same for `lt_ineqs_6_evals_MFILE.DAT` (opt soln) and `lt_ineqs_6_evals_sol_MFILE.DAT` (non-opt soln)? \n", + "\n", + "The constraint residuals (`constraint_residuals.csv`) are very similar, but not the same. They should be. eq constraints are all different, ineq cons agree to 1e-3 or better." + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
\n", + "\n", + "\n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + "
Constraint nameConstraint number6 eval opt6 eval non-opt10 eval opt10 eval non-opt
0Beta_consistency_normalised_residue ...(eq_con001)7.147300e-07-0.0000297.147300e-07-0.000029
1Global_power_balance_consistencynormalised_res...(eq_con002)1.440900e-07-0.0000331.440900e-07-0.000033
2Radial_build_consistencynormalised_residue ...(eq_con011)1.103100e-10-0.0000041.103100e-10-0.000004
3Density_upper_limit ...(ineq_con005)1.393000e-030.0013941.393000e-030.001394
4Neutron_wall_load_upper_limit ...(ineq_con008)9.578900e-010.9580109.578900e-010.958010
5Fusion_power_upper_limit_ ...(ineq_con009)8.401700e-010.8402808.401700e-010.840280
6Burn_time_lower_limit ...(ineq_con013)1.268500e-020.0126181.268500e-020.012618
7L-H_power_threshold_limit ...(ineq_con015)4.236700e-010.4236204.236700e-010.423620
8Injection_power_upper_limit ...(ineq_con030)1.646600e+001.6464001.646600e+001.646400
9Net_electric_power_lower_limit_ ...(ineq_con016)3.283600e-020.0327103.283600e-020.032710
10Beta_upper_limit ...(ineq_con024)2.152400e-020.0215182.152400e-020.021518
11Peak_toroidal_field_upper_limit ...(ineq_con025)1.443300e-010.1443301.443300e-010.144330
12CS_coil_EOF_current_density_limit ...(ineq_con026)6.120100e-020.0610856.120100e-020.061085
13CS_coil_BOP_current_density_limit ...(ineq_con027)1.492900e-010.1491901.492900e-010.149190
14I_op_/_I_critical_(TF_coil) ...(ineq_con033)1.549200e-030.0015281.549200e-030.001528
15Dump_voltage_upper_limit_ ...(ineq_con034)7.558200e-040.0007727.558200e-040.000772
16J_winding_pack/J_protection_limit ...(ineq_con035)3.219400e-030.0032083.219400e-030.003208
17TF_coil_temp._margin_lower_limit_ ...(ineq_con036)2.330600e-010.2330002.330600e-010.233000
18CS_temperature_margin_lower_limit ...(ineq_con060)2.754400e-020.0273462.754400e-020.027346
19taup/taueff_ ...(ineq_con062)5.872700e-030.0058865.872700e-030.005886
20Dump_time_set_by_VV_stress_ ...(ineq_con065)1.272300e+001.2723001.272300e+001.272300
21CS_Tresca_yield_criterion ...(ineq_con072)2.105900e-030.0020722.105900e-030.002072
22ne0_>_neped_ ...(ineq_con081)6.736500e-010.6736506.736500e-010.673650
23Upper_Lim._on_Psep_*_Bt_/_q_A_R ...(ineq_con068)2.781600e-030.0028682.781600e-030.002868
24TF_coil_case_stress_upper_limit ...(ineq_con031)1.372700e-030.0013721.372700e-030.001372
25TF_coil_conduit_stress_upper_lim_ ...(ineq_con032)1.747800e-010.1747801.747800e-010.174780
\n", + "
" + ], + "text/plain": [ + " Constraint name Constraint number \n", + "0 Beta_consistency_normalised_residue ... (eq_con001) \\\n", + "1 Global_power_balance_consistencynormalised_res... (eq_con002) \n", + "2 Radial_build_consistencynormalised_residue ... (eq_con011) \n", + "3 Density_upper_limit ... (ineq_con005) \n", + "4 Neutron_wall_load_upper_limit ... (ineq_con008) \n", + "5 Fusion_power_upper_limit_ ... (ineq_con009) \n", + "6 Burn_time_lower_limit ... (ineq_con013) \n", + "7 L-H_power_threshold_limit ... (ineq_con015) \n", + "8 Injection_power_upper_limit ... (ineq_con030) \n", + "9 Net_electric_power_lower_limit_ ... (ineq_con016) \n", + "10 Beta_upper_limit ... (ineq_con024) \n", + "11 Peak_toroidal_field_upper_limit ... (ineq_con025) \n", + "12 CS_coil_EOF_current_density_limit ... (ineq_con026) \n", + "13 CS_coil_BOP_current_density_limit ... (ineq_con027) \n", + "14 I_op_/_I_critical_(TF_coil) ... (ineq_con033) \n", + "15 Dump_voltage_upper_limit_ ... (ineq_con034) \n", + "16 J_winding_pack/J_protection_limit ... (ineq_con035) \n", + "17 TF_coil_temp._margin_lower_limit_ ... (ineq_con036) \n", + "18 CS_temperature_margin_lower_limit ... (ineq_con060) \n", + "19 taup/taueff_ ... (ineq_con062) \n", + "20 Dump_time_set_by_VV_stress_ ... (ineq_con065) \n", + "21 CS_Tresca_yield_criterion ... (ineq_con072) \n", + "22 ne0_>_neped_ ... (ineq_con081) \n", + "23 Upper_Lim._on_Psep_*_Bt_/_q_A_R ... (ineq_con068) \n", + "24 TF_coil_case_stress_upper_limit ... (ineq_con031) \n", + "25 TF_coil_conduit_stress_upper_lim_ ... (ineq_con032) \n", + "\n", + " 6 eval opt 6 eval non-opt 10 eval opt 10 eval non-opt \n", + "0 7.147300e-07 -0.000029 7.147300e-07 -0.000029 \n", + "1 1.440900e-07 -0.000033 1.440900e-07 -0.000033 \n", + "2 1.103100e-10 -0.000004 1.103100e-10 -0.000004 \n", + "3 1.393000e-03 0.001394 1.393000e-03 0.001394 \n", + "4 9.578900e-01 0.958010 9.578900e-01 0.958010 \n", + "5 8.401700e-01 0.840280 8.401700e-01 0.840280 \n", + "6 1.268500e-02 0.012618 1.268500e-02 0.012618 \n", + "7 4.236700e-01 0.423620 4.236700e-01 0.423620 \n", + "8 1.646600e+00 1.646400 1.646600e+00 1.646400 \n", + "9 3.283600e-02 0.032710 3.283600e-02 0.032710 \n", + "10 2.152400e-02 0.021518 2.152400e-02 0.021518 \n", + "11 1.443300e-01 0.144330 1.443300e-01 0.144330 \n", + "12 6.120100e-02 0.061085 6.120100e-02 0.061085 \n", + "13 1.492900e-01 0.149190 1.492900e-01 0.149190 \n", + "14 1.549200e-03 0.001528 1.549200e-03 0.001528 \n", + "15 7.558200e-04 0.000772 7.558200e-04 0.000772 \n", + "16 3.219400e-03 0.003208 3.219400e-03 0.003208 \n", + "17 2.330600e-01 0.233000 2.330600e-01 0.233000 \n", + "18 2.754400e-02 0.027346 2.754400e-02 0.027346 \n", + "19 5.872700e-03 0.005886 5.872700e-03 0.005886 \n", + "20 1.272300e+00 1.272300 1.272300e+00 1.272300 \n", + "21 2.105900e-03 0.002072 2.105900e-03 0.002072 \n", + "22 6.736500e-01 0.673650 6.736500e-01 0.673650 \n", + "23 2.781600e-03 0.002868 2.781600e-03 0.002868 \n", + "24 1.372700e-03 0.001372 1.372700e-03 0.001372 \n", + "25 1.747800e-01 0.174780 1.747800e-01 0.174780 " + ] + }, + "execution_count": 2, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "pd.read_csv(\"constraint_residuals.csv\")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## 10 model evaluations\n", + "\n", + "Run `lt_ineqs_10_evals_IN.DAT` (copy of `lt_ineqs_IN.DAT` to avoid overwriting MFILE): the original LT input file, but converted to inequalities. \n", + "\n", + "Converges: all ineqs feasible (positive) (`lt_ineqs_10_evals_MFILE.DAT`).\n", + "\n", + "Now convert this to a once-through input file at the solution vector." + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Optimisation parameter f-values ignored = 0\n", + "f-values removed as optimisation parameters = 0\n" + ] + }, + { + "data": { + "text/plain": [ + "PosixPath('lt_ineqs_10_evals_sol_IN.DAT')" + ] + }, + "execution_count": 5, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "convert(\n", + " original_in_name=\"lt_ineqs_10_evals_IN.DAT\",\n", + " mfile_name=\"lt_ineqs_10_evals_MFILE.DAT\",\n", + " new_in_name=\"lt_ineqs_10_evals_sol_IN.DAT\",\n", + " no_optimisation=True,\n", + " n_equalities=3,\n", + " remove_f_value_inits=False,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Run this `lt_ineqs_10_evals_sol_IN.DAT`. No ineq constraints violated (negative); again completely feasible. However, constraint residuals again differ. eq constraints all different, ineq constraints again slightly different between opt and non-opt outputs.\n", + "\n", + "In fact, the values for the opt and non-opt constraint residuals are the same for both 6 and 10 evals: going from 6 to 10 evals makes no difference. However, there is a clear difference betwen the opt and non-opt constraint residuals. The difference is minor, but there: there shouldn't be any difference." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Conclusion\n", + "\n", + "An input file was taken and converted to inequalities. It was then ran with a modified VMCON, which forces the inequality constraints to be feasible at the solution. A feasible solution was found, and used to create a once-through input at the solution point. This produced a non-feasible solution, however.\n", + "\n", + "Upping the number of model evaluations from 1 to 6, both the optimised and subsequent non-optimised solutions were feasible. The non-optimising input file is therefore a good candidate for further UQ work.\n", + "\n", + "However, the constraint residuals differ between the optimised and non-optimised solutions. Going from 6 to 10 model evaluations didn't change this. These values should be the same; further investigations need to be done to find the source of this discrepancy." + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "easyVVUQ-process", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/solution_points/large_tokamak/lt_ineqs_10_evals_IN.DAT b/solution_points/large_tokamak/lt_ineqs_10_evals_IN.DAT new file mode 100644 index 0000000..5cb3674 --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_10_evals_IN.DAT @@ -0,0 +1,594 @@ +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816E-03 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3727E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1142E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2671E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2671E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0714E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9679E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7418E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5585E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1870E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0488E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7665E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0054E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4545E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6919E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3108E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5707E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9182E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6313E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3017E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.2027E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2608E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4198E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0160E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4213E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6303E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2567E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3034E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8683E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0415E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6562E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3607E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3779E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9828E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1464E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7836E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5639E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5569E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9723E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7771E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6731E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7710E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9545E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5346E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6731E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6842E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6842E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5799E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3057E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8530E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7959E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2252E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5104E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2252E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1228E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9525E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6811E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6861E-01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1400E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2252E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5569E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5114E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9232E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7948E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2682E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5989E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1620E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6479E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5703E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1882E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9567E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8496E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2514E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8496E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5556E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0667E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5116E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0535E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7927E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8654E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4807E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4936E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7857E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7857E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7765E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1280E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8557E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5724E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5724E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2773E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6530E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6862E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7765E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7765E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6845E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3635E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5724E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5724E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1383E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1383E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1460E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4415E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6303E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4226E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4999E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3623E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1350E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9186E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1933E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1602E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8866E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1602E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4957E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3055E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5114E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8056E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1758E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5569E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1829E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0939E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1464E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5569E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5569E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1464E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4297E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4490E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1829E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5114E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2357E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7314E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9406E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9413E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8683E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8309E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00059776 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT b/solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT new file mode 100644 index 0000000..8cce6e0 --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT @@ -0,0 +1,1488 @@ + # PROCESS # + # Power Reactor Optimisation Code # + # PROCESS # + # Power Reactor Optimisation Code # + PROCESS_version_number__________________________________________________ (procver)_____________________ "3.1.0 R" + Date_of_run_____________________________________________________________ (date)________________________ "03/04/2024" + Time_of_run_____________________________________________________________ (time)________________________ "14:39" + User____________________________________________________________________ (username)____________________ "jon" + PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak + PROCESS_tag_number______________________________________________________ (tagno)_______________________ "" + PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "six-model-evals" + PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Merge branch |ukaea:main| into six-model-evals" + Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_10_evals_sol_IN.DAT " + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + # Final UNFEASIBLE Point # + # Numerics # + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 + Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ -2.9327E-05 + Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ -3.2800E-05 + Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ -4.4154E-06 + Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 1.3943E-03 + Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ 9.5801E-01 + Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ 8.4028E-01 + Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 1.2618E-02 + L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 4.2362E-01 + Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 1.6464E+00 + Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ 3.2710E-02 + Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 2.1518E-02 + Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ 1.4433E-01 + CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 6.1085E-02 + CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.4919E-01 + I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ 1.5277E-03 + Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ 7.7153E-04 + J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ 3.2083E-03 + TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ 2.3300E-01 + CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.7346E-02 + taup/taueff_____________________________________________________________ (ineq_con062)_________________ 5.8857E-03 + Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ 1.2723E+00 + CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 2.0721E-03 + ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.8676E-03 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3721E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1188E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3222E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9380E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1140E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2672E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2672E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9676E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7680E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7416E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6954E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1867E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7911E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7911E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8155E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3959E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0051E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1188E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3222E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1188E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5569E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3849E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5015E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5015E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6964E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2606E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4196E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4211E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6282E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9399E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2565E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2604E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4431E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4076E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7968E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6564E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6282E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0214E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3604E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9826E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1466E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2165E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4246E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5574E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6802E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1002E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9714E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730E+01 OP + L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.6842E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0517E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0517E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0517E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3792E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9076E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9885E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7968E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5348E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2250E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3704E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2250E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8199E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1230E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9523E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6808E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8109E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.7385E-01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1397E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7603E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2250E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.7154E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5574E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5115E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2909E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9227E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7949E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3842E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5990E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0572E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6619E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8592E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2932E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9923E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4852E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0659E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0620E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4901E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5553E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8399E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4029E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5112E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7923E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6796E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4640E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1248E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4845E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5720E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4845E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5410E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6531E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4029E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6860E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6855E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3633E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1806E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1806E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1381E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1381E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4413E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6721E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5460E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6416E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9923E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3623E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1596E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3815E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3815E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8863E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3815E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1596E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5947E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3052E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9082E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0051E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5115E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8058E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2691E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8884E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1753E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9722E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9082E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0185E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4807E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5574E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1827E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9883E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7968E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8680E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0937E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2604E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1466E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5574E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8682E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5574E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1466E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1827E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8364E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4487E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5460E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1308E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5115E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9082E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2358E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7309E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7309E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7309E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9405E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1308E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3096E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9412E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1288E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5340E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2687E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5679E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8681E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Once through only: no optimisation +ioptimz = -2 +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 + +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 37 * coheof +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 122 * oh_steel_frac +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00059776 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT b/solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT new file mode 100644 index 0000000..5cb3674 --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT @@ -0,0 +1,594 @@ +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816E-03 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3727E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1142E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2671E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2671E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0714E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9679E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7418E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5585E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1870E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0488E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7665E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0054E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4545E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6919E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3108E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5707E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9182E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6313E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3017E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.2027E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2608E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4198E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0160E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4213E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6303E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2567E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3034E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8683E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0415E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6562E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3607E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3779E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9828E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1464E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7836E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5639E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5569E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9723E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7771E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6731E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7710E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9545E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5346E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6731E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6842E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6842E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5799E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3057E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8530E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7959E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2252E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5104E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2252E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1228E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9525E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6811E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6861E-01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1400E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2252E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5569E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5114E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9232E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7948E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2682E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5989E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1620E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6479E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5703E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1882E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9567E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8496E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2514E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8496E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5556E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0667E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5116E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0535E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7927E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8654E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4807E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4936E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7857E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7857E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7765E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1280E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8557E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5724E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5724E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2773E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6530E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6862E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7765E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7765E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6845E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3635E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5724E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5724E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1383E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1383E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1460E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4415E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6303E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4226E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4999E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3623E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1350E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9186E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1933E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1602E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8866E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1602E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4957E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3055E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5114E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8056E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1758E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5569E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1829E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0939E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1464E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5569E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5569E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1464E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4297E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4490E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1829E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5114E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2357E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7314E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9406E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9413E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8683E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8309E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00059776 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT b/solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT new file mode 100644 index 0000000..4098a82 --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT @@ -0,0 +1,1488 @@ + # PROCESS # + # Power Reactor Optimisation Code # + # PROCESS # + # Power Reactor Optimisation Code # + PROCESS_version_number__________________________________________________ (procver)_____________________ "3.1.0 R" + Date_of_run_____________________________________________________________ (date)________________________ "03/04/2024" + Time_of_run_____________________________________________________________ (time)________________________ "13:48" + User____________________________________________________________________ (username)____________________ "jon" + PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak + PROCESS_tag_number______________________________________________________ (tagno)_______________________ "" + PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "six-model-evals" + PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Merge branch |ukaea:main| into six-model-evals" + Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_6_evals_sol_IN.DAT " + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + # Final UNFEASIBLE Point # + # Numerics # + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 + Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ -2.9327E-05 + Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ -3.2800E-05 + Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ -4.4154E-06 + Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 1.3943E-03 + Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ 9.5801E-01 + Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ 8.4028E-01 + Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 1.2618E-02 + L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 4.2362E-01 + Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 1.6464E+00 + Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ 3.2710E-02 + Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 2.1518E-02 + Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ 1.4433E-01 + CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 6.1085E-02 + CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.4919E-01 + I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ 1.5277E-03 + Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ 7.7153E-04 + J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ 3.2083E-03 + TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ 2.3300E-01 + CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.7346E-02 + taup/taueff_____________________________________________________________ (ineq_con062)_________________ 5.8857E-03 + Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ 1.2723E+00 + CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 2.0721E-03 + ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.8676E-03 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3721E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1188E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3222E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9380E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1140E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2672E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2672E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9676E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7680E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7416E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6954E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1867E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7911E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7911E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8155E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3959E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0051E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1188E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3222E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1188E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5569E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3849E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5015E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5015E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6964E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2606E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4196E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4211E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6282E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9399E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2565E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2604E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4431E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4076E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7968E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6564E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6282E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0214E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3604E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9826E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1466E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2165E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4246E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5574E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6802E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1002E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9714E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730E+01 OP + L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.6842E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0517E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0517E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0517E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3792E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9076E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9885E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7968E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5348E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2250E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3704E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2250E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8199E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1230E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9523E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6808E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8109E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.7385E-01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1397E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7603E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2250E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.7154E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5574E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5115E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2909E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9227E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7949E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3842E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5990E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0572E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6619E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8592E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2932E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9923E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4852E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0659E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0620E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4901E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5553E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8399E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4029E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5112E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7923E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6796E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4640E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1248E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4845E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5720E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4845E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5410E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6531E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4029E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6860E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6855E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3633E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1806E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1806E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1381E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1381E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4413E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6721E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5460E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6416E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9923E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3623E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1596E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3815E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3815E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8863E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3815E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1596E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5947E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3052E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9082E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0051E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5115E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8058E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2691E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8884E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1753E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9722E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9082E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0185E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4807E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5574E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1827E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9883E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7968E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8680E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0937E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2604E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1466E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5574E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8682E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5574E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1466E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1827E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8364E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4487E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5460E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1308E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5115E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9082E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2358E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7309E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7309E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7309E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9405E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1308E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3096E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9412E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1288E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5340E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2687E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5679E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8681E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Once through only: no optimisation +ioptimz = -2 +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 + +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 37 * coheof +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 122 * oh_steel_frac +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00059776 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_ineqs_IN.DAT b/solution_points/large_tokamak/lt_ineqs_IN.DAT new file mode 100644 index 0000000..5cb3674 --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_IN.DAT @@ -0,0 +1,594 @@ +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7117E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 1.0914E-02 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 8.7443E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.8045E-01 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0096E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8404E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 5.0886E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5354E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9903E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8925E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7955E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.1217E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4126E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.4195E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.5017E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.5934E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.5081E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4982E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.5210E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6140E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6511E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1753E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.7231E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3739E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7435E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.5992E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.5992E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.5210E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.9057E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.5870E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.0683E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 4.0643E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6180E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1907E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5283E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0223E+02 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.8849E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2683E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3175E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9675E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7070E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5898E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7422E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.3032E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.1045E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.9023E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.9023E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.7050E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0998E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0360E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8226E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9333E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5346E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.4442E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.8004E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 8.2225E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.5394E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.1462E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.1214E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.5215E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.4161E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8414E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4358E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.7986E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4518E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0250E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0096E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8404E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0096E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5214E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6317E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0788E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2528E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4075E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3652E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5146E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.4323E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7147E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0788E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2610E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3274E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3431E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3401E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5352E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.8270E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1507E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8982E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4246E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0112E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4788E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8594E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9314E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7150E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4014E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0845E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2491E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5765E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2491E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5765E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3801E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.8988E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0375E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.7427E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1970E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1128E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5662E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 5.1424E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.3995E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.5120E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3038E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3038E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.8358E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.3148E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.8358E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 6.4603E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7070E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.6591E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2082E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6519E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2331E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0963E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3748E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 2.8593E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4076E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.5350E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3038E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6598E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6578E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9971E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.3156E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3269E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2969E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 4.0353E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.6023E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.5755E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.5580E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.5841E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.4331E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.3915E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.9266E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.8744E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 6.2416E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6578E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0400E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2875E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3479E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9396E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.0794E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1833E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8167E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4579E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.6190E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 8.6640E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6437E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0547E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8920E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2946E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.8384E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.8263E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1268E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.7116E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.7609E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2797E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.7243E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.8136E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9918E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.6092E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1103E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3254E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2209E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6683E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3986E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.0905E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5731E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.7609E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2797E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.7243E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.7609E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.7609E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1880E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0552E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0552E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0552E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.4132E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0144E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 3.0769E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.5841E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.7332E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.6729E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.6875E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3431E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9427E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6559E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5641E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3347E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9210E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7373E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8029E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2280E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5412E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3885E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1646E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0955E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9349E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2280E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.7258E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.2027E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.8964E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4308E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.1893E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.9167E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.4124E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 1.1640E+01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 1.9024E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 5.5262E+05 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.7476E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2280E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 3.3868E-02 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.4333E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.5667E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 8.6640E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.7328E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7546E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8268E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7372E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6317E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.3366E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6317E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9731E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0069E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.8018E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.3446E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3627E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.3446E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6072E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.3691E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1443E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0393E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1527E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8277E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6073E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5339E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4350E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.6046E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7462E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6073E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5317E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3535E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.0502E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5784E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4535E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4854E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0319E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1634E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2719E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -8.0095E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1581E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.3446E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.3446E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7981E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4517E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8542E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.3173E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1044E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.5081E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.5885E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.8324E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.9983E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.7418E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7566E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1774E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.0496E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1902E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0898E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.8415E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1708E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8210E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3471E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4930E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8887E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7287E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.1287E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0000E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6737E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.8338E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8330E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.9369E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.5992E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.9855E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3968E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5418E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.3336E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1734E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2342E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1461E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1461E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2806E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5907E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1574E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2495E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1467E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1467E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.2772E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7415E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.4844E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9833E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4693E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0862E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 6.9114E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2674E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.9950E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5907E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8330E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3853E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9837E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4848E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3971E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5631E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0689E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7994E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0445E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3877E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.6494E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0948E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.8914E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1679E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0069E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.5069E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3195E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0237E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.2959E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.1874E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9223E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.5000E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.4335E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.5000E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.5900E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5326E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8451E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4399E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5576E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4800E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.8423E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.8423E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3788E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2736E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2736E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4610E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7844E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3329E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0613E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3675E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3675E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1425E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0570E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8080E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6741E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1302E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1302E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9159E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6636E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6287E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6741E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1302E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1302E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9159E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6636E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6287E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5219E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0431E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0431E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2938E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1753E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5608E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5219E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0431E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0431E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2938E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1753E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5608E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2749E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.3594E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6106E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8442E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3971E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.4889E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.4305E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6009E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3996E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7844E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7844E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 6.2715E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8297E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0570E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0570E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -1.9386E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9803E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0510E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0510E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6636E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9803E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0510E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0510E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6636E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.0988E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7941E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7941E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1753E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.0988E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7941E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7941E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1753E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7392E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 2.9525E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 2.9525E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8442E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6317E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6317E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6317E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2066E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.3089E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4618E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2852E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 4.0272E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.8910E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.5269E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.5343E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6598E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1734E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.7170E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7229E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2416E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.6430E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6714E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3216E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4483E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5270E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7806E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5360E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6072E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9837E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9833E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.0965E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.9775E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1113E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2422E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9524E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7415E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1264E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4329E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.9491E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.2767E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3945E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7354E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1869E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1961E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1640E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 5.0131E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8959E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1375E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.9283E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0438E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0248E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6531E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6531E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.8783E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.7640E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.0092E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6350E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6350E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 7.3028E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.4072E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.8164E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.8164E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.4782E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.8164E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 7.3028E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.2794E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7345E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.3353E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.8531E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9975E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9567E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3716E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1339E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2375E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4984E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5765E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6602E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9590E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.3392E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0438E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.7328E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.7068E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5574E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4886E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.7512E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9548E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.3033E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.4219E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6602E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7229E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2416E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9391E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.3237E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9803E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9590E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5505E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0648E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6602E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5574E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5467E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 8.6640E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.3146E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2335E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 3.0769E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.5841E+01 + Total_(MW)______________________________________________________________ ______________________________ 4.0353E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1498E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2969E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.0794E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 8.6640E+01 + Total_(MW)______________________________________________________________ ______________________________ 4.0353E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6598E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1590E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 8.6640E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.0794E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.7043E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.2334E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8857E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4556E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4630E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.6430E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.2335E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0488E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.7328E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9590E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6602E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0438E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2148E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5574E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.9338E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.9338E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.9338E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6598E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1590E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9757E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0488E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3401E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.3146E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9764E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.0493E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.4393E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.4680E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6973E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.9116E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8733E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0069 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.53594 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00064603 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21679000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.94305 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.49223 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.03261 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3652 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.8988e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.45667 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.188 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7147 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.068358 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.491 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 89837.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.81662 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.415 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.29983 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.50496 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.008 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT b/solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT new file mode 100644 index 0000000..7b1784c --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT @@ -0,0 +1,1488 @@ + # PROCESS # + # Power Reactor Optimisation Code # + # PROCESS # + # Power Reactor Optimisation Code # + PROCESS_version_number__________________________________________________ (procver)_____________________ "3.1.0 R" + Date_of_run_____________________________________________________________ (date)________________________ "03/04/2024" + Time_of_run_____________________________________________________________ (time)________________________ "13:36" + User____________________________________________________________________ (username)____________________ "jon" + PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak + PROCESS_tag_number______________________________________________________ (tagno)_______________________ "v3.1.0-2-gcd33ed331" + PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "main" + PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "remove tfc_model commented out code ([hash]3116)" + Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_sol_IN.DAT " + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + # Final UNFEASIBLE Point # + # Numerics # + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 + Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ -2.5694E-05 + Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ 8.0975E-06 + Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ -3.1544E-06 + Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 2.4996E-03 + Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ 9.2316E-01 + Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ 8.0751E-01 + Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 1.8525E-02 + L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 4.0616E-01 + Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 1.3083E+00 + Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ -1.3187E-01 + Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 1.0793E-02 + Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ 1.3433E-01 + CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 7.7077E-02 + CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.1508E-01 + I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ 2.2965E-03 + Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ 1.6672E-03 + J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ -2.1672E-05 + TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ 2.2191E-01 + CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.1856E-02 + taup/taueff_____________________________________________________________ (ineq_con062)_________________ 1.3463E-01 + Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ 1.2053E+00 + CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 2.1857E-05 + ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ 6.7117E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 1.0952E-02 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 8.7269E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.8043E-01 + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0099E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8409E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 1.6074E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5354E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9903E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 1.1111E+01 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.8377E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.1217E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4126E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.4195E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.5017E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.5933E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.5081E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4981E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.5209E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6137E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6504E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1734E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.7231E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3733E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7435E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.5993E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.5993E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.5210E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.9056E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.5869E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.0683E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 4.0644E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6180E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1907E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5283E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0223E+02 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.8865E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2683E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3173E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9677E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.4640E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5655E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7421E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.3030E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.1045E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 3.4856E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 3.4856E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 3.2330E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 4.6860E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0360E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8226E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9333E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5346E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.6003E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.8004E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 8.8978E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 7.1294E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.2727E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.1213E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.6831E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.4160E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8953E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4778E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 9.0561E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4943E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0550E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0099E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8409E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0099E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 5.7553E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6317E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0787E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2528E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4075E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3652E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5146E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.4323E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7147E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0787E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2610E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3274E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3431E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3399E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5352E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.8270E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1507E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8982E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4246E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0111E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4788E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8594E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9314E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7150E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4014E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0845E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2491E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5764E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2491E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5764E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3801E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.8988E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0375E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.7427E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1970E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1128E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5662E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 5.1424E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.3995E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.5119E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3038E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.8358E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.3148E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.8358E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 6.4603E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7070E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.6591E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2082E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6519E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2330E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0963E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3747E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 2.8593E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4075E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.5350E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3038E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6597E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6577E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9970E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.3155E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3269E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2969E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 4.0352E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.6022E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.5755E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.5578E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.5840E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.4331E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.3915E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.9267E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.8744E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 6.2416E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6577E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0400E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2874E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3478E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9395E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.0796E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1833E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8167E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4579E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.6190E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 8.6645E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6437E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0546E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8917E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2946E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.8384E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.8263E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1268E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.7116E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.7609E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2797E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.7243E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.8136E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9918E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.6092E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1103E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3254E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2209E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6683E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3986E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.0905E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5731E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.7609E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2797E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.7243E+01 OP + L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.7609E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1880E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0551E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0551E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0551E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.4132E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0143E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 3.0768E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.5840E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.7332E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.6731E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.6875E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3431E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9426E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6559E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 2.8305E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3347E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9211E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.7260E-01 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8028E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2279E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5411E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3883E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1646E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0955E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9349E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2279E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.7260E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.2028E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.8963E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4308E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.1891E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.9165E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.4124E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 1.1645E+01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 1.9022E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 5.5284E+05 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.7476E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2279E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 3.3882E-02 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.4333E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.5667E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 8.6645E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.7329E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7545E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8268E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7361E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6317E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.3334E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6317E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 2.6363E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0069E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.8019E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.3445E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3627E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.3445E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6071E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.3691E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1443E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0393E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1527E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8277E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6074E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5340E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4351E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.6046E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7463E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6074E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5318E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3536E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.0504E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5784E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4536E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4855E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0320E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1635E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2719E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -8.0096E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1581E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.3445E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.3445E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7981E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4517E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8542E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.3173E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1045E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.5080E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.5885E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.8323E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.9983E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.7417E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7565E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1773E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.0496E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1902E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0898E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.8415E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1708E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8210E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3471E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4930E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8886E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7286E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.1286E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0000E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6737E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.8338E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8329E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.9367E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.5991E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.9854E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3968E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5418E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.3335E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1734E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2342E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1461E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1461E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2807E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5907E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1574E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2495E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1467E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1467E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.2773E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7415E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.4845E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9834E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4693E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0862E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 6.9112E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2674E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.9949E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5907E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8329E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3853E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9837E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4851E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3971E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5632E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0690E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7995E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0444E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3877E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.6496E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0949E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.8917E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1679E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0069E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.5069E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3195E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0237E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.2959E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.1873E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9223E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4998E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.4333E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4998E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.5900E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5328E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8451E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4400E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5577E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4800E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.8423E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.8423E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3788E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2734E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2734E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4593E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7837E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3294E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0613E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3672E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3672E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1403E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0561E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8042E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6741E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1302E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1302E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9159E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6636E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6287E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6741E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1302E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1302E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9159E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6636E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6287E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5219E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0431E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0431E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2938E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1753E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5608E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5219E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0431E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0431E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2938E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1753E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5608E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2749E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.3594E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6105E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8442E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3971E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.4887E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.4305E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.5965E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3995E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7837E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7837E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 6.2762E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8297E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0561E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0561E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -1.9380E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9802E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0512E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0512E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6636E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9802E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0512E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0512E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6636E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.0987E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7943E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7943E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1753E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.0987E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7943E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7943E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1753E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7392E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 2.9443E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 2.9443E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8442E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6317E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6317E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6317E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2066E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.3089E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4617E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2852E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 4.0271E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.8908E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.5268E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.5342E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6597E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1734E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.7169E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7228E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2414E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.6428E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6714E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3216E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4483E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5270E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7806E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5360E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6071E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9837E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9834E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.0965E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.9775E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1113E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2422E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9524E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7415E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1264E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4329E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.9491E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.2768E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3945E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7355E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1870E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1961E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1640E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 5.0131E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8959E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1375E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.9283E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0438E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0262E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6531E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6531E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.8782E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 9.9000E+03 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.0091E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6351E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6351E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 7.3026E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.4072E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.8162E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.8162E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.4781E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.8162E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 7.3026E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.2794E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7344E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.3352E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.8530E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9975E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9567E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3869E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1339E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2375E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 2.4154E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5856E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 9.5113E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9589E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.3437E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0438E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.7329E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 6.2947E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5803E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4885E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 8.5575E-02 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9549E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 5.9854E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 1.9286E-01 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 9.5113E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7228E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2414E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9390E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.3234E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9803E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9589E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5505E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0647E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 9.5113E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5803E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5466E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 8.6645E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.8906E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2334E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 3.0769E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.5840E+01 + Total_(MW)______________________________________________________________ ______________________________ 4.0353E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1497E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2969E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.0796E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 8.6645E+01 + Total_(MW)______________________________________________________________ ______________________________ 4.0352E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6597E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1589E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 8.6645E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.0796E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.7043E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.2333E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8856E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4555E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4629E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.6428E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.2334E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 3.4725E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.7329E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9589E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 9.5113E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0438E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 6.7551E-02 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5803E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.9336E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.9336E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.9336E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6597E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1589E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9756E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 3.4725E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3400E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.8906E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9763E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 1.7577E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.0922E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 6.1129E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6971E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.9115E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8733E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Once through only: no optimisation +ioptimz = -2 +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 + +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 37 * coheof +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 122 * oh_steel_frac +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0069 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.53594 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00064603 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21679000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.94305 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.49223 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.03261 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3652 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.8988e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.45667 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.188 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7147 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.068358 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.491 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 89837.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.81662 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.415 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.29983 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.50496 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.008 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_ineqs_std_IN.DAT b/solution_points/large_tokamak/lt_ineqs_std_IN.DAT new file mode 100644 index 0000000..fe5b56d --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_std_IN.DAT @@ -0,0 +1,437 @@ + +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 37 * coheof +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 122 * oh_steel_frac +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.5 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00038 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 1.5e7 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.9 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.8 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.03 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.7 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.5e19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.4 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.1 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.5 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.0 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 65000.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 25.0 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.5 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.5 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.008 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_orig_IN.DAT b/solution_points/large_tokamak/lt_orig_IN.DAT new file mode 100644 index 0000000..3810d6c --- /dev/null +++ b/solution_points/large_tokamak/lt_orig_IN.DAT @@ -0,0 +1,613 @@ +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +ixc = 14 * fwalld +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +ixc = 26 * ffuspow +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +ixc = 21 * ftburn +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +ixc = 103 * flhthresh +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +ixc = 46 * fpinj +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +ixc = 25 * fpnetel +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +ixc = 36 * fbetatry +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +ixc = 35 * fpeakb +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +ixc = 38 * fjohc +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 39 * fjohc0 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +ixc = 50 * fiooic +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +ixc = 51 * fvdump +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +ixc = 53 * fjprot +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +ixc = 54 * ftmargtf +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +ixc = 106 * ftmargoh +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +ixc = 110 * ftaulimit +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +ixc = 113 * fmaxvvstress +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +ixc = 123 * foh_stress +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped Date: Thu, 4 Apr 2024 10:18:37 +0100 Subject: [PATCH 12/14] Use w severity metric and nearly feasible soln --- infeas/decoder.py | 35 +- .../lt_ineqs_6_evals_sol_IN_DAT.template | 449 + ra/metrics/ra_analysis w.ipynb | 338 + ra/metrics/ra_eval.ipynb | 8503 ++++++++++++----- 4 files changed, 7088 insertions(+), 2237 deletions(-) create mode 100644 ra/metrics/lt_ineqs_6_evals_sol_IN_DAT.template create mode 100644 ra/metrics/ra_analysis w.ipynb diff --git a/infeas/decoder.py b/infeas/decoder.py index 89d4f31..431fe1e 100644 --- a/infeas/decoder.py +++ b/infeas/decoder.py @@ -73,38 +73,21 @@ def _process_raw_data(self, raw_data: Dict[str, Any]) -> Dict[str, float]: for ineq_constrs_key in ineq_constrs_keys } - # Only want violated constraint values - # Coerce feasible inequality constraints (c > 0) to 0.0 - # Sign of constraints confusing: beware cc = -cc in constraints module; - # against docs! - # TODO Check sign of violated constraints is definitely right - # TODO Not sure if we want to mask non-violated constraint - # values at this stage: infeasible responses only - vio_ineq_constrs_dict = {} - for key, value in ineq_constrs_dict.items(): - if value > 0: - vio_ineq_constrs_dict[key] = 0.0 - else: - vio_ineq_constrs_dict[key] = value - - # Merge individual eq and ineq violated constraint values - responses = responses | eq_constrs_dict | vio_ineq_constrs_dict + # Merge individual eq and ineq constraint values + responses = responses | eq_constrs_dict | ineq_constrs_dict # Calculate RMS constraint residuals for violated constraints only # Create arrays from constraints dicts - # Don't include eq constraints - # TODO Should this be permanent? - # eq_constrs = np.array(list(eq_constrs_dict.values())) - vio_ineq_constrs = np.array(list(vio_ineq_constrs_dict.values())) - # vio_constrs = np.concatenate((eq_constrs, vio_ineq_constrs)) - vio_constrs = vio_ineq_constrs - rms_vio_constr_res = np.sqrt(np.mean(vio_constrs**2)) + # Process satisfied con: c > 0 + # Everyone else satisfied con: c < 0 + # Flip sign to agree with standard + ineq_constrs = -np.array(list(ineq_constrs_dict.values())) # TODO Would be better to override method in notebook for testing - responses["rms_vio_constr_res"] = rms_vio_constr_res - # TODO Don't use RMS violated inequality constraints: use different - # reliability metric + # Use w metric: most violated inequality constraint + w = np.max(ineq_constrs) + responses["w"] = w return responses diff --git a/ra/metrics/lt_ineqs_6_evals_sol_IN_DAT.template b/ra/metrics/lt_ineqs_6_evals_sol_IN_DAT.template new file mode 100644 index 0000000..de6b874 --- /dev/null +++ b/ra/metrics/lt_ineqs_6_evals_sol_IN_DAT.template @@ -0,0 +1,449 @@ +* Once through only: no optimisation +ioptimz = -2 +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 + +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 37 * coheof +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 122 * oh_steel_frac +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.00038 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + +****************************** +* Modifications for reliability analysis: overwrites any previous values +****************************** +fimp(14) = $fimp_14 * W impurity fraction +psepbqarmax = $psepbqarmax * divertor protection limit +triang = $triang * triangularity diff --git a/ra/metrics/ra_analysis w.ipynb b/ra/metrics/ra_analysis w.ipynb new file mode 100644 index 0000000..ed9c748 --- /dev/null +++ b/ra/metrics/ra_analysis w.ipynb @@ -0,0 +1,338 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Local reliability with w severity function: analyse\n", + "\n", + "Evaluate local reliability for 3 uncertain parameters (fimp_14, psepbqarmax and triang). This uses the $w$ worst-violated inequality constraint severity metric." + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "import matplotlib.pyplot as plt\n", + "import seaborn as sns\n", + "import numpy as np\n", + "import pandas as pd\n", + "from infeas import analyse\n", + "import easyvvuq as uq" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Reading in campaign database.\n" + ] + } + ], + "source": [ + "campaign_names = [\n", + " \"3p_lt_ineqs_6_evals_sol\", # 3 params, unc params expanded to include solution, w severity\n", + "]\n", + "\n", + "# 3p: triang, psepbqarmax, fimp_14\n", + "\n", + "# Campaign name bug: string pattern must match unique campaign\n", + "campaigns = {}\n", + "for campaign_name in campaign_names:\n", + " campaigns[campaign_name] = analyse.get_campaign(campaign_name)" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Peek at samples from one campaign: check out a responses." + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
\n", + "\n", + "\n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + "
w
count150.000000
mean0.314479
std0.028458
min0.267040
25%0.290137
50%0.313580
75%0.339075
max0.372670
\n", + "
" + ], + "text/plain": [ + " w\n", + "count 150.000000\n", + "mean 0.314479\n", + "std 0.028458\n", + "min 0.267040\n", + "25% 0.290137\n", + "50% 0.313580\n", + "75% 0.339075\n", + "max 0.372670" + ] + }, + "execution_count": 3, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "qois = [\n", + " \"w\",\n", + "]\n", + "samples = analyse.get_samples(campaigns[\"3p_lt_ineqs_6_evals_sol\"])\n", + "samples[qois].describe()" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Distribution of violated constraint residuals" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [], + "source": [ + "response_series = []\n", + "for campaign_name in campaigns:\n", + " # TODO How are these different?\n", + " # samples = campaign.get_collation_result()\n", + " # samples = campaign.analyse(qoi_cols=qois)\n", + "\n", + " results = campaigns[campaign_name].analyse(qoi_cols=qois)\n", + " results.samples.columns = results.samples.columns.droplevel(1)\n", + " samples = results.samples[\"w\"]\n", + " # Response series for one campaign\n", + " samples = samples.rename(campaign_name)\n", + " response_series.append(samples)\n", + "\n", + "# Concatenate list of response series into single df\n", + "campaigns_responses = pd.concat(response_series, axis=1)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## w result\n", + "\n", + "3 uncertain params, unc params extended to include solution point, w as severity metric." + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "Text(0, 0.5, 'CDF')" + ] + }, + "execution_count": 8, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": "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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, ax = plt.subplots()\n", + "sns.ecdfplot(data=campaigns_responses[\"3p_lt_ineqs_6_evals_sol\"], ax=ax)\n", + "ax.set_title(\"LT reliability analysis: 3 uncertain parameters\")\n", + "ax.set_xlabel(\"$w$, most-violated inequality constraint residual\")\n", + "ax.set_ylabel(\"CDF\")\n", + "# ax.set_xlim(0.0)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "As\n", + "$$R = F_s(0\\mid\\theta),$$\n", + "Reliability $R = 0$ for this solution point under uncertainty. There is no sample point where $s = 0$; no samples are feasible. This is probably due to the solution point itself not being feasible: 1 constraint is violated in the once-through run." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Fancy w plot" + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "Text(0.004, 0.025, 'Reliability R = 0.0')" + ] + }, + "execution_count": 11, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": "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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, ax = plt.subplots()\n", + "sns.ecdfplot(data=campaigns_responses[\"3p_lt_ineqs_6_evals_sol\"], ax=ax)\n", + "ax.set_title(\"Large tokamak reliability analysis: 3 uncertain parameters\")\n", + "ax.set_xlabel(\"$w$, most-violated inequality constraint residual\")\n", + "ax.set_ylabel(\"CDF\")\n", + "\n", + "# Intersection lines\n", + "x, y = ax.lines[0].get_data()\n", + "thresh = 0.0\n", + "# Find index of sign-change around threshold\n", + "thresh_idx = np.nonzero(np.diff(np.sign(x - thresh)))[0]\n", + "y_val = y[thresh_idx[0]]\n", + "ax.axhline(y_val, color=\"grey\", linestyle=\"dashed\")\n", + "ax.axvline(0.0, color=\"grey\", linestyle=\"dashed\")\n", + "\n", + "# Annotation positions\n", + "reliable_x = 0.015\n", + "reliable_y_pad = 0.05\n", + "# TODO rel to center?\n", + "ax.annotate(\"Infeasible\", (0.0005, 0.8), color=\"red\")\n", + "ax.annotate(\"Feasible\", (-0.0035, 0.8), color=\"blue\")\n", + "ax.annotate(\n", + " \"Unreliable\",\n", + " (reliable_x, y_val + reliable_y_pad),\n", + " color=\"red\",\n", + " verticalalignment=\"center\",\n", + ")\n", + "ax.annotate(\n", + " \"Reliable\",\n", + " (reliable_x, y_val - reliable_y_pad),\n", + " color=\"blue\",\n", + " verticalalignment=\"center\",\n", + ")\n", + "ax.annotate(\n", + " f\"Reliability R = {y_val:.2}\",\n", + " (0.004, y_val + reliable_y_pad / 2),\n", + " color=\"green\",\n", + " verticalalignment=\"center\",\n", + ")" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": ".venv", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + }, + "orig_nbformat": 4, + "vscode": { + "interpreter": { + "hash": "0d602a62c005a1edaecc467843c8abc40b106c408f7dd3fdae5e868ff234b67e" + } + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/ra/metrics/ra_eval.ipynb b/ra/metrics/ra_eval.ipynb index 469c7e8..c3fbcbf 100644 --- a/ra/metrics/ra_eval.ipynb +++ b/ra/metrics/ra_eval.ipynb @@ -30,7 +30,7 @@ "# Define campaign\n", "WORK_DIR = \"campaigns\"\n", "Path(\"campaigns\").mkdir(exist_ok=True)\n", - "campaign = uq.Campaign(name=\"3p_infeas_sol\", work_dir=WORK_DIR)\n", + "campaign = uq.Campaign(name=\"3p_lt_ineqs_6_evals_sol\", work_dir=WORK_DIR)\n", "\n", "# Define parameter space\n", "# Uncertainties from Alex's SA paper\n", @@ -49,9 +49,9 @@ "}\n", "\n", "# QoIs\n", - "# Violated constraint residuals\n", + "# Worst violated ineq constraint\n", "qois = [\n", - " \"rms_vio_constr_res\",\n", + " \"w\",\n", "]" ] }, @@ -91,7 +91,7 @@ "name": "stderr", "output_type": "stream", "text": [ - " 0%| | 0/90 [00:00 Date: Mon, 8 Apr 2024 17:22:40 +0100 Subject: [PATCH 13/14] Investigate opt and non-opt solution discrepancies --- .../large_tokamak/constraint_residuals.csv | 54 +- .../large_tokamak/lt_feas_non_opt.ipynb | 505 ++++- .../large_tokamak/lt_ineqs_precise_IN.DAT | 594 ++++++ .../large_tokamak/lt_ineqs_precise_MFILE.DAT | 1714 +++++++++++++++++ .../large_tokamak/lt_ineqs_precise_sol_IN.DAT | 443 +++++ .../lt_ineqs_precise_sol_MFILE.DAT | 1488 ++++++++++++++ 6 files changed, 4768 insertions(+), 30 deletions(-) create mode 100644 solution_points/large_tokamak/lt_ineqs_precise_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_precise_MFILE.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_precise_sol_IN.DAT create mode 100644 solution_points/large_tokamak/lt_ineqs_precise_sol_MFILE.DAT diff --git a/solution_points/large_tokamak/constraint_residuals.csv b/solution_points/large_tokamak/constraint_residuals.csv index 2ef67e7..f12d2c4 100644 --- a/solution_points/large_tokamak/constraint_residuals.csv +++ b/solution_points/large_tokamak/constraint_residuals.csv @@ -1,27 +1,27 @@ -Constraint name ,Constraint number ,6 eval opt ,6 eval non-opt ,10 eval opt ,10 eval non-opt -Beta_consistency_normalised_residue ,(eq_con001) ,7.1473E-07 ,-2.9327E-05 ,7.1473E-07 ,-2.9327E-05 -Global_power_balance_consistencynormalised_residue ,(eq_con002) ,1.4409E-07 ,-3.2800E-05 ,1.4409E-07 ,-3.2800E-05 -Radial_build_consistencynormalised_residue ,(eq_con011) ,1.1031E-10 ,-4.4154E-06 ,1.1031E-10 ,-4.4154E-06 -Density_upper_limit ,(ineq_con005) ,1.3930E-03 ,1.3943E-03 ,1.3930E-03 ,1.3943E-03 -Neutron_wall_load_upper_limit ,(ineq_con008) ,9.5789E-01 ,9.5801E-01 ,9.5789E-01 ,9.5801E-01 -Fusion_power_upper_limit_ ,(ineq_con009) ,8.4017E-01 ,8.4028E-01 ,8.4017E-01 ,8.4028E-01 -Burn_time_lower_limit ,(ineq_con013) ,1.2685E-02 ,1.2618E-02 ,1.2685E-02 ,1.2618E-02 -L-H_power_threshold_limit ,(ineq_con015) ,4.2367E-01 ,4.2362E-01 ,4.2367E-01 ,4.2362E-01 -Injection_power_upper_limit ,(ineq_con030) ,1.6466E+00 ,1.6464E+00 ,1.6466E+00 ,1.6464E+00 -Net_electric_power_lower_limit_ ,(ineq_con016) ,3.2836E-02 ,3.2710E-02 ,3.2836E-02 ,3.2710E-02 -Beta_upper_limit ,(ineq_con024) ,2.1524E-02 ,2.1518E-02 ,2.1524E-02 ,2.1518E-02 -Peak_toroidal_field_upper_limit ,(ineq_con025) ,1.4433E-01 ,1.4433E-01 ,1.4433E-01 ,1.4433E-01 -CS_coil_EOF_current_density_limit ,(ineq_con026) ,6.1201E-02 ,6.1085E-02 ,6.1201E-02 ,6.1085E-02 -CS_coil_BOP_current_density_limit ,(ineq_con027) ,1.4929E-01 ,1.4919E-01 ,1.4929E-01 ,1.4919E-01 -I_op_/_I_critical_(TF_coil) ,(ineq_con033) ,1.5492E-03 ,1.5277E-03 ,1.5492E-03 ,1.5277E-03 -Dump_voltage_upper_limit_ ,(ineq_con034) ,7.5582E-04 ,7.7153E-04 ,7.5582E-04 ,7.7153E-04 -J_winding_pack/J_protection_limit ,(ineq_con035) ,3.2194E-03 ,3.2083E-03 ,3.2194E-03 ,3.2083E-03 -TF_coil_temp._margin_lower_limit_ ,(ineq_con036) ,2.3306E-01 ,2.3300E-01 ,2.3306E-01 ,2.3300E-01 -CS_temperature_margin_lower_limit ,(ineq_con060) ,2.7544E-02 ,2.7346E-02 ,2.7544E-02 ,2.7346E-02 -taup/taueff_ ,(ineq_con062) ,5.8727E-03 ,5.8857E-03 ,5.8727E-03 ,5.8857E-03 -Dump_time_set_by_VV_stress_ ,(ineq_con065) ,1.2723E+00 ,1.2723E+00 ,1.2723E+00 ,1.2723E+00 -CS_Tresca_yield_criterion ,(ineq_con072) ,2.1059E-03 ,2.0721E-03 ,2.1059E-03 ,2.0721E-03 -ne0_>_neped_ ,(ineq_con081) ,6.7365E-01 ,6.7365E-01 ,6.7365E-01 ,6.7365E-01 -Upper_Lim._on_Psep_*_Bt_/_q_A_R ,(ineq_con068) ,2.7816E-03 ,2.8676E-03 ,2.7816E-03 ,2.8676E-03 -TF_coil_case_stress_upper_limit ,(ineq_con031) ,1.3727E-03 ,1.3721E-03 ,1.3727E-03 ,1.3721E-03 -TF_coil_conduit_stress_upper_lim_ ,(ineq_con032) ,1.7478E-01 ,1.7478E-01 ,1.7478E-01 ,1.7478E-01 +Constraint name ,Constraint number ,6 eval opt ,6 eval non-opt ,10 eval opt ,10 eval non-opt ,6 eval opt high sig figs ,6 eval non-opt high sig figs +Beta_consistency_normalised_residue ,(eq_con001) ,7.1473E-07 ,-2.9327E-05 ,7.1473E-07 ,-2.9327E-05 ,7.1472657592330791E-07 ,7.1472657592330791E-07 +Global_power_balance_consistencynormalised_residue ,(eq_con002) ,1.4409E-07 ,-3.2800E-05 ,1.4409E-07 ,-3.2800E-05 ,1.4408541271215825E-07 ,1.4408541293420285E-07 +Radial_build_consistencynormalised_residue ,(eq_con011) ,1.1031E-10 ,-4.4154E-06 ,1.1031E-10 ,-4.4154E-06 ,1.1031220381596540E-10 ,1.1031220381596540E-10 +Density_upper_limit ,(ineq_con005) ,1.3930E-03 ,1.3943E-03 ,1.3930E-03 ,1.3943E-03 ,1.3930368334447163E-03 ,1.3930368334444942E-03 +Neutron_wall_load_upper_limit ,(ineq_con008) ,9.5789E-01 ,9.5801E-01 ,9.5789E-01 ,9.5801E-01 ,9.5789153628326984E-01 ,9.5789153628326984E-01 +Fusion_power_upper_limit_ ,(ineq_con009) ,8.4017E-01 ,8.4028E-01 ,8.4017E-01 ,8.4028E-01 ,8.4016657095808633E-01 ,8.4016657095808633E-01 +Burn_time_lower_limit ,(ineq_con013) ,1.2685E-02 ,1.2618E-02 ,1.2685E-02 ,1.2618E-02 ,1.2685094491714066E-02 ,1.2685094491714288E-02 +L-H_power_threshold_limit ,(ineq_con015) ,4.2367E-01 ,4.2362E-01 ,4.2367E-01 ,4.2362E-01 ,4.2366925125959387E-01 ,4.2366925125959376E-01 +Injection_power_upper_limit ,(ineq_con030) ,1.6466E+00 ,1.6464E+00 ,1.6466E+00 ,1.6464E+00 ,1.6466016511692532E+00 ,1.6466016511692549E+00 +Net_electric_power_lower_limit_ ,(ineq_con016) ,3.2836E-02 ,3.2710E-02 ,3.2836E-02 ,3.2710E-02 ,3.2835988390757409E-02 ,3.2835988390757853E-02 +Beta_upper_limit ,(ineq_con024) ,2.1524E-02 ,2.1518E-02 ,2.1524E-02 ,2.1518E-02 ,2.1523617369164416E-02 ,2.1523617369163972E-02 +Peak_toroidal_field_upper_limit ,(ineq_con025) ,1.4433E-01 ,1.4433E-01 ,1.4433E-01 ,1.4433E-01 ,1.4433246970900915E-01 ,1.4433246970900915E-01 +CS_coil_EOF_current_density_limit ,(ineq_con026) ,6.1201E-02 ,6.1085E-02 ,6.1201E-02 ,6.1085E-02 ,6.1201499090579814E-02 ,6.1201499090579592E-02 +CS_coil_BOP_current_density_limit ,(ineq_con027) ,1.4929E-01 ,1.4919E-01 ,1.4929E-01 ,1.4919E-01 ,1.4929370241678663E-01 ,1.4929370241678686E-01 +I_op_/_I_critical_(TF_coil) ,(ineq_con033) ,1.5492E-03 ,1.5277E-03 ,1.5492E-03 ,1.5277E-03 ,1.5491694790163990E-03 ,1.5491694790155108E-03 +Dump_voltage_upper_limit_ ,(ineq_con034) ,7.5582E-04 ,7.7153E-04 ,7.5582E-04 ,7.7153E-04 ,7.5582314772493220E-04 ,7.5582314772559833E-04 +J_winding_pack/J_protection_limit ,(ineq_con035) ,3.2194E-03 ,3.2083E-03 ,3.2194E-03 ,3.2083E-03 ,3.2194204546711624E-03 ,3.2194204546704963E-03 +TF_coil_temp._margin_lower_limit_ ,(ineq_con036) ,2.3306E-01 ,2.3300E-01 ,2.3306E-01 ,2.3300E-01 ,2.3305864783977093E-01 ,2.3305864783976982E-01 +CS_temperature_margin_lower_limit ,(ineq_con060) ,2.7544E-02 ,2.7346E-02 ,2.7544E-02 ,2.7346E-02 ,2.7543996798929937E-02 ,2.7543996798930381E-02 +taup/taueff_ ,(ineq_con062) ,5.8727E-03 ,5.8857E-03 ,5.8727E-03 ,5.8857E-03 ,5.8727481651641433E-03 ,5.8727481651641433E-03 +Dump_time_set_by_VV_stress_ ,(ineq_con065) ,1.2723E+00 ,1.2723E+00 ,1.2723E+00 ,1.2723E+00 ,1.2723120471813067E+00 ,1.2723120471813081E+00 +CS_Tresca_yield_criterion ,(ineq_con072) ,2.1059E-03 ,2.0721E-03 ,2.1059E-03 ,2.0721E-03 ,2.1059318384457626E-03 ,2.1059318384457626E-03 +ne0_>_neped_ ,(ineq_con081) ,6.7365E-01 ,6.7365E-01 ,6.7365E-01 ,6.7365E-01 ,6.7364958927861762E-01 ,6.7364958927861829E-01 +Upper_Lim._on_Psep_*_Bt_/_q_A_R ,(ineq_con068) ,2.7816E-03 ,2.8676E-03 ,2.7816E-03 ,2.8676E-03 ,2.7816131769182739E-03 ,2.7816131769184960E-03 +TF_coil_case_stress_upper_limit ,(ineq_con031) ,1.3727E-03 ,1.3721E-03 ,1.3727E-03 ,1.3721E-03 ,1.3726682971630932E-03 ,1.3726682971826332E-03 +TF_coil_conduit_stress_upper_lim_ ,(ineq_con032) ,1.7478E-01 ,1.7478E-01 ,1.7478E-01 ,1.7478E-01 ,1.7478469926471685E-01 ,1.7478469926473483E-01 diff --git a/solution_points/large_tokamak/lt_feas_non_opt.ipynb b/solution_points/large_tokamak/lt_feas_non_opt.ipynb index 7bd5368..99845f9 100644 --- a/solution_points/large_tokamak/lt_feas_non_opt.ipynb +++ b/solution_points/large_tokamak/lt_feas_non_opt.ipynb @@ -600,13 +600,512 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "## Conclusion\n", + "## Intermediary Conclusion\n", "\n", - "An input file was taken and converted to inequalities. It was then ran with a modified VMCON, which forces the inequality constraints to be feasible at the solution. A feasible solution was found, and used to create a once-through input at the solution point. This produced a non-feasible solution, however.\n", + "An input file was taken and converted to inequalities. It was then run with a modified VMCON, which forces the inequality constraints to be feasible at the solution. A feasible solution was found, and used to create a once-through input at the solution point. This produced a non-feasible solution, however.\n", "\n", "Upping the number of model evaluations from 1 to 6, both the optimised and subsequent non-optimised solutions were feasible. The non-optimising input file is therefore a good candidate for further UQ work.\n", "\n", - "However, the constraint residuals differ between the optimised and non-optimised solutions. Going from 6 to 10 model evaluations didn't change this. These values should be the same; further investigations need to be done to find the source of this discrepancy." + "However, the constraint residuals differ between the optimised and non-optimised solutions. Going from 6 to 10 model evaluations didn't change this. These values should be the same; further investigations need to be done to find the source of this discrepancy.\n", + "\n", + "## Reducing discrepancy between optimised solutions and corresponding non-optimised outputs\n", + "\n", + "The significant figures in the MFILE.DAT were increased from 5 to 17 (full double precision) to improve the precision on the solution vector.\n", + "\n", + "Modifications are now:\n", + "- VMCON convergence criterion (feasible solutions only)\n", + "- 6 model evaluations\n", + "- Higher precision in MFILE output (17 significant figures)\n", + "\n", + "Re-run the analysis to see what the effect is.\n", + "\n", + "```\n", + "cp lt_ineqs_IN.DAT lt_ineqs_precise_IN.DAT\n", + "process -i lt_ineqs_precise_IN.DAT\n", + "```\n", + "Then copy solution vector to new non-optimising IN.DAT:" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Optimisation parameter f-values ignored = 0\n", + "f-values removed as optimisation parameters = 0\n" + ] + }, + { + "data": { + "text/plain": [ + "PosixPath('lt_ineqs_precise_sol_IN.DAT')" + ] + }, + "execution_count": 4, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "convert(\n", + " original_in_name=\"lt_ineqs_precise_IN.DAT\",\n", + " mfile_name=\"lt_ineqs_precise_MFILE.DAT\",\n", + " new_in_name=\"lt_ineqs_precise_sol_IN.DAT\",\n", + " no_optimisation=True,\n", + " n_equalities=3,\n", + " remove_f_value_inits=False,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Then update constraint residuals data:" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
\n", + "\n", + "\n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + " \n", + "
Constraint nameConstraint number6 eval opt6 eval non-opt10 eval opt10 eval non-opt6 eval opt high sig figs6 eval non-opt high sig figs
0Beta_consistency_normalised_residue ...(eq_con001)7.147300e-07-0.0000297.147300e-07-0.0000297.147266e-077.147266e-07
1Global_power_balance_consistencynormalised_res...(eq_con002)1.440900e-07-0.0000331.440900e-07-0.0000331.440854e-071.440854e-07
2Radial_build_consistencynormalised_residue ...(eq_con011)1.103100e-10-0.0000041.103100e-10-0.0000041.103122e-101.103122e-10
3Density_upper_limit ...(ineq_con005)1.393000e-030.0013941.393000e-030.0013941.393037e-031.393037e-03
4Neutron_wall_load_upper_limit ...(ineq_con008)9.578900e-010.9580109.578900e-010.9580109.578915e-019.578915e-01
5Fusion_power_upper_limit_ ...(ineq_con009)8.401700e-010.8402808.401700e-010.8402808.401666e-018.401666e-01
6Burn_time_lower_limit ...(ineq_con013)1.268500e-020.0126181.268500e-020.0126181.268509e-021.268509e-02
7L-H_power_threshold_limit ...(ineq_con015)4.236700e-010.4236204.236700e-010.4236204.236693e-014.236693e-01
8Injection_power_upper_limit ...(ineq_con030)1.646600e+001.6464001.646600e+001.6464001.646602e+001.646602e+00
9Net_electric_power_lower_limit_ ...(ineq_con016)3.283600e-020.0327103.283600e-020.0327103.283599e-023.283599e-02
10Beta_upper_limit ...(ineq_con024)2.152400e-020.0215182.152400e-020.0215182.152362e-022.152362e-02
11Peak_toroidal_field_upper_limit ...(ineq_con025)1.443300e-010.1443301.443300e-010.1443301.443325e-011.443325e-01
12CS_coil_EOF_current_density_limit ...(ineq_con026)6.120100e-020.0610856.120100e-020.0610856.120150e-026.120150e-02
13CS_coil_BOP_current_density_limit ...(ineq_con027)1.492900e-010.1491901.492900e-010.1491901.492937e-011.492937e-01
14I_op_/_I_critical_(TF_coil) ...(ineq_con033)1.549200e-030.0015281.549200e-030.0015281.549169e-031.549169e-03
15Dump_voltage_upper_limit_ ...(ineq_con034)7.558200e-040.0007727.558200e-040.0007727.558231e-047.558231e-04
16J_winding_pack/J_protection_limit ...(ineq_con035)3.219400e-030.0032083.219400e-030.0032083.219420e-033.219420e-03
17TF_coil_temp._margin_lower_limit_ ...(ineq_con036)2.330600e-010.2330002.330600e-010.2330002.330586e-012.330586e-01
18CS_temperature_margin_lower_limit ...(ineq_con060)2.754400e-020.0273462.754400e-020.0273462.754400e-022.754400e-02
19taup/taueff_ ...(ineq_con062)5.872700e-030.0058865.872700e-030.0058865.872748e-035.872748e-03
20Dump_time_set_by_VV_stress_ ...(ineq_con065)1.272300e+001.2723001.272300e+001.2723001.272312e+001.272312e+00
21CS_Tresca_yield_criterion ...(ineq_con072)2.105900e-030.0020722.105900e-030.0020722.105932e-032.105932e-03
22ne0_>_neped_ ...(ineq_con081)6.736500e-010.6736506.736500e-010.6736506.736496e-016.736496e-01
23Upper_Lim._on_Psep_*_Bt_/_q_A_R ...(ineq_con068)2.781600e-030.0028682.781600e-030.0028682.781613e-032.781613e-03
24TF_coil_case_stress_upper_limit ...(ineq_con031)1.372700e-030.0013721.372700e-030.0013721.372668e-031.372668e-03
25TF_coil_conduit_stress_upper_lim_ ...(ineq_con032)1.747800e-010.1747801.747800e-010.1747801.747847e-011.747847e-01
\n", + "
" + ], + "text/plain": [ + " Constraint name Constraint number \n", + "0 Beta_consistency_normalised_residue ... (eq_con001) \\\n", + "1 Global_power_balance_consistencynormalised_res... (eq_con002) \n", + "2 Radial_build_consistencynormalised_residue ... (eq_con011) \n", + "3 Density_upper_limit ... (ineq_con005) \n", + "4 Neutron_wall_load_upper_limit ... (ineq_con008) \n", + "5 Fusion_power_upper_limit_ ... (ineq_con009) \n", + "6 Burn_time_lower_limit ... (ineq_con013) \n", + "7 L-H_power_threshold_limit ... (ineq_con015) \n", + "8 Injection_power_upper_limit ... (ineq_con030) \n", + "9 Net_electric_power_lower_limit_ ... (ineq_con016) \n", + "10 Beta_upper_limit ... (ineq_con024) \n", + "11 Peak_toroidal_field_upper_limit ... (ineq_con025) \n", + "12 CS_coil_EOF_current_density_limit ... (ineq_con026) \n", + "13 CS_coil_BOP_current_density_limit ... (ineq_con027) \n", + "14 I_op_/_I_critical_(TF_coil) ... (ineq_con033) \n", + "15 Dump_voltage_upper_limit_ ... (ineq_con034) \n", + "16 J_winding_pack/J_protection_limit ... (ineq_con035) \n", + "17 TF_coil_temp._margin_lower_limit_ ... (ineq_con036) \n", + "18 CS_temperature_margin_lower_limit ... (ineq_con060) \n", + "19 taup/taueff_ ... (ineq_con062) \n", + "20 Dump_time_set_by_VV_stress_ ... (ineq_con065) \n", + "21 CS_Tresca_yield_criterion ... (ineq_con072) \n", + "22 ne0_>_neped_ ... (ineq_con081) \n", + "23 Upper_Lim._on_Psep_*_Bt_/_q_A_R ... (ineq_con068) \n", + "24 TF_coil_case_stress_upper_limit ... (ineq_con031) \n", + "25 TF_coil_conduit_stress_upper_lim_ ... (ineq_con032) \n", + "\n", + " 6 eval opt 6 eval non-opt 10 eval opt 10 eval non-opt \n", + "0 7.147300e-07 -0.000029 7.147300e-07 -0.000029 \\\n", + "1 1.440900e-07 -0.000033 1.440900e-07 -0.000033 \n", + "2 1.103100e-10 -0.000004 1.103100e-10 -0.000004 \n", + "3 1.393000e-03 0.001394 1.393000e-03 0.001394 \n", + "4 9.578900e-01 0.958010 9.578900e-01 0.958010 \n", + "5 8.401700e-01 0.840280 8.401700e-01 0.840280 \n", + "6 1.268500e-02 0.012618 1.268500e-02 0.012618 \n", + "7 4.236700e-01 0.423620 4.236700e-01 0.423620 \n", + "8 1.646600e+00 1.646400 1.646600e+00 1.646400 \n", + "9 3.283600e-02 0.032710 3.283600e-02 0.032710 \n", + "10 2.152400e-02 0.021518 2.152400e-02 0.021518 \n", + "11 1.443300e-01 0.144330 1.443300e-01 0.144330 \n", + "12 6.120100e-02 0.061085 6.120100e-02 0.061085 \n", + "13 1.492900e-01 0.149190 1.492900e-01 0.149190 \n", + "14 1.549200e-03 0.001528 1.549200e-03 0.001528 \n", + "15 7.558200e-04 0.000772 7.558200e-04 0.000772 \n", + "16 3.219400e-03 0.003208 3.219400e-03 0.003208 \n", + "17 2.330600e-01 0.233000 2.330600e-01 0.233000 \n", + "18 2.754400e-02 0.027346 2.754400e-02 0.027346 \n", + "19 5.872700e-03 0.005886 5.872700e-03 0.005886 \n", + "20 1.272300e+00 1.272300 1.272300e+00 1.272300 \n", + "21 2.105900e-03 0.002072 2.105900e-03 0.002072 \n", + "22 6.736500e-01 0.673650 6.736500e-01 0.673650 \n", + "23 2.781600e-03 0.002868 2.781600e-03 0.002868 \n", + "24 1.372700e-03 0.001372 1.372700e-03 0.001372 \n", + "25 1.747800e-01 0.174780 1.747800e-01 0.174780 \n", + "\n", + " 6 eval opt high sig figs 6 eval non-opt high sig figs \n", + "0 7.147266e-07 7.147266e-07 \n", + "1 1.440854e-07 1.440854e-07 \n", + "2 1.103122e-10 1.103122e-10 \n", + "3 1.393037e-03 1.393037e-03 \n", + "4 9.578915e-01 9.578915e-01 \n", + "5 8.401666e-01 8.401666e-01 \n", + "6 1.268509e-02 1.268509e-02 \n", + "7 4.236693e-01 4.236693e-01 \n", + "8 1.646602e+00 1.646602e+00 \n", + "9 3.283599e-02 3.283599e-02 \n", + "10 2.152362e-02 2.152362e-02 \n", + "11 1.443325e-01 1.443325e-01 \n", + "12 6.120150e-02 6.120150e-02 \n", + "13 1.492937e-01 1.492937e-01 \n", + "14 1.549169e-03 1.549169e-03 \n", + "15 7.558231e-04 7.558231e-04 \n", + "16 3.219420e-03 3.219420e-03 \n", + "17 2.330586e-01 2.330586e-01 \n", + "18 2.754400e-02 2.754400e-02 \n", + "19 5.872748e-03 5.872748e-03 \n", + "20 1.272312e+00 1.272312e+00 \n", + "21 2.105932e-03 2.105932e-03 \n", + "22 6.736496e-01 6.736496e-01 \n", + "23 2.781613e-03 2.781613e-03 \n", + "24 1.372668e-03 1.372668e-03 \n", + "25 1.747847e-01 1.747847e-01 " + ] + }, + "execution_count": 5, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "pd.read_csv(\"constraint_residuals.csv\")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "The optimised and non-optimised MFILEs agree very closely: remaining discrepancy could be due to insufficient model evaluations (could try increasing from 6 to 10).\n", + "\n", + "## Conclusion\n", + "\n", + "By modifing:\n", + "- VMCON convergence criterion (feasible solutions only)\n", + "- 6 model evaluations\n", + "- Higher precision in MFILE output (17 significant figures)\n", + "\n", + "the optimised and non-optimised solution agree very closely. By copying the solution vector from an optimised output, a non-optimising input can produce the same output. This is vital for reliability analysis at a solution point.\n", + "\n", + "Possibly increasing model evaluations could improve the agreement further (very slightly): this needs investigating." ] } ], diff --git a/solution_points/large_tokamak/lt_ineqs_precise_IN.DAT b/solution_points/large_tokamak/lt_ineqs_precise_IN.DAT new file mode 100644 index 0000000..5cb3674 --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_precise_IN.DAT @@ -0,0 +1,594 @@ +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7364958927861762E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816131769182739E-03 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3726682971630932E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478469926471685E-01 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184110508852179E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214061802967545E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373065250623551E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000000000000000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200000000000003E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294180263409936E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000000000000000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0306766676874581E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641276915104889E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4799999999999999E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767230398711622E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000000000000000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000000000000000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1499999999999998E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8211592959413325E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7873913601260301E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130079210601932E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109273974685442E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3984606064579725E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726178241376999E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000000000000000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166497863402878E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394202683174967E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394202683174967E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5678840536634993E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0791649005296215E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660031860723535E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122058569724179E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964068211059637E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306461560590513E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562112763302474E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701466132836737E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508102823769754E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409103545634878E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010009472003884E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6418726067169061E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1141640664763685E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108485850452746E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517131003701695E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404212380591363E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233044692992794E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2670582092885928E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000000000000000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000000000000000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2670582092885928E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770000000000000E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6799999999999997E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713927387117752E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9678657061843730E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000000000000000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000000000000000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789258444896149E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9833760374787377E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4958812214728574E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1527839888136086E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.7999999999999998E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565176518558033E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835204658901432E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679369269407705E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.5999999999999996E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995199999999999E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2692837151779981E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709370284405457E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3515927417386751E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 8.9999999999999991E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593383668262902E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7417746108221735E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584633443538607E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955401837651436E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1869544320365620E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882494615801706E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910417612101675E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910417612101675E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814014871997946E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487551249009823E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300000000000001E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262341621488487E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154496699787060E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9264700284527592E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234261319919949E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000000000000000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500000000000000E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3830698657701359E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664756491028754E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8399999999999999E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549076591049509E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961059821403881E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.7999999999999998E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000000000000000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951013641245339E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000000000000000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0053786932544973E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544613672668174E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622161472005569E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8190628659834833E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183372254838087E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918614587341090E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4341571406911282E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126018599425237E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000000000000000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000000000000000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184110508852179E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214061802967545E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184110508852179E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000000000000000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000000000000004E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567208657101495E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000000000000000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000000000000000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6666666666666665E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000000000000000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500000000000001E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6517857142857142E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7187938085542798E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000000000000000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333333333333331E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081367139525412E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398222236371524E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738427771245592E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8881711539956693E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091095415265283E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0946658953123900E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568268843995554E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107701385273738E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183221746449050E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968101768657044E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842004944822461E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000000000000000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339078193128556E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0946658953123900E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304088153554879E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282238158373725E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109349535984607E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851252918648007E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000000000000000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706619596109692E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.7918962861690079E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479237924966830E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8614913867121408E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274127194579083E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3799999999999999E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273075375982215E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4606908015233011E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8471821451550285E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181553860444942E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7039759871338011E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208326198533010E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553407103451543E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221383528378945E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016131184593430E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221383528378945E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016131184593430E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491009818944320E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962239000298373E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0246646031169908E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312749570372239E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983306812224104E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024353239136862E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6267995537172013E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992154580660952E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963489151657144E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016632218466960E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000000000000000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027488674766381E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.2027488674766381E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0238763988650204E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.5016814574985222E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.0238763988650204E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000000000000000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000000000000000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000000000000000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000000000000000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000000000000000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000000000000000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000000000000000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000000000000000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000000000000000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000000000000000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9775532338778915E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 4.9999999999999996E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844166390168525E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5210461992023787E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000000000000000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000000000000006E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223365373551419E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.4999999999999998E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000000000000006E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000000000000000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000000000000001E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6013744337383191E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000000000000000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500000000000000E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000000000000000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2607764951557874E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058299505437499E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4197750778786202E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159764097767545E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4212588494120858E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445432332866363E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027488674766381E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000000000000000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000000000000000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283471494987166E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400469685270241E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000000000000000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2566942989974336E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000000000000000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033572477809735E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605187865268650E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682972075874642E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414965159168283E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430403895064032E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078007670142609E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000000000000009E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000000000000011E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000000000000009E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969163207042001E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3082784857290920E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1879701177995119E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6561582535796939E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148229282514502E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300000000000001E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000000000000000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7103603510773293E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283471494987182E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215070461955549E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3606541795759036E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000000000000000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700000000000000E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.0999999999999998E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.0999999999999998E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000000000000008E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778682136261203E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9827859659497832E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1463659117689817E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.4999999999999996E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164192126748128E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835807873251872E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247175835349776E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638885493472657E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000000000000000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5568606976286432E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803270897879523E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004088622349403E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9722610273227303E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708092218727384E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770623930782284E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378016952604767E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858003037135910E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6807612148873517E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842416978627824E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695394422085602E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730889736399632E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709835237397996E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221161971587549E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836490172750885E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019441728918775E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082065647247518E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2177599412762632E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6116899894301131E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767261883918934E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544517268223828E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345525475398784E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842416978627824E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695394422085602E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730889736399632E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6842416978627824E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6842416978627824E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1859718189050279E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515331418067850E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515331418067855E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515331418067850E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790435611887197E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075203792007804E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886055755170440E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969163207042001E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347270137331341E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0293637408258203E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000000000000000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7281789731025792E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109349535984621E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9375932379021271E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7307578036350031E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6814508068158602E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798626456150407E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056538204681951E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000000000000004E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529600480801527E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889128203388304E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000000000000000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958752287538000E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2251873872162710E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103555996343977E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703369430742883E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537174340555314E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878200874438033E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9073679338199390E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2251873872162710E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000000000000000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000000000000000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197311948930800E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1227731797685366E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9524781957964692E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4328756128565802E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000000000000000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000000000000000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6810894573589527E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112154188382326E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414237052664427E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000000000000000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000000000000000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6860697628643209E-01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000000000000007E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1399550873986598E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350114471006487E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100209127981158E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000000000000004E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000000000000000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000000000000004E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2251873872162710E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000000000000000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000000000000000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997049464426151E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578155633193029E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000000000000000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2421844366806971E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5568606976286432E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000000000000000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000000000000000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5113721395257286E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722422897692240E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909498252762103E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889128203388304E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000000000000000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091095415265283E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000000000000000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913326803403406E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091095415265283E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000000000000000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9231545886456479E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4681659398875304E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7947687516318231E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000000000000002E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2672586247397737E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000000000000003E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000000000000000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000000000000004E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000000000000004E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000000000000000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000000000000007E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000000000000002E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000000000000000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000000000000000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000000000000002E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000000000000000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000000000000004E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000000000000004E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668127176836800E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000000000000003E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2672586247397737E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6036671918781593E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300000000000001E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000000000000004E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 5.9999999999999998E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000000000000009E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000000000000002E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 5.9999999999999998E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333333333333336E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0018838307941582E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000000000000011E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 6.9999999999999996E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000000000000004E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000000000000002E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000000000000002E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.7999999999999996E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6666666666666670E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333333333333336E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000000000000000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000000000000000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000000000000000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500000000000001E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694191539707965E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422222222222226E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933333333333330E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6666666666666670E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333333333333336E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0819987621919880E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0428688795434875E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000000000000000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000000000000000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000000000000000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000000000000000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000000000000000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000000000000000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6882620831496986E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400323196709277E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656136096266414E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725428159852314E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109105566727559E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075218233566240E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4222827320172460E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291127751304742E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496492988582254E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7837989034815589E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949161651762665E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744266467793896E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0018838307941582E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000000000000000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000000000000000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185063142677869E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1533924338568596E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398129337699031E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522204343860905E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000000000000000E+00 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8894929966111338E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002261034255889E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865093088182926E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897191000367224E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5223697586718497E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839224173154086E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002261034255889E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604225102089763E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841485207409978E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1339555498207733E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6278939198945260E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4495736006982714E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5300968168750978E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0774675205927974E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681708668643320E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684029772807750E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5988727971867459E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619704029788434E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984842315587336E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2672586247397737E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2672586247397737E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145348951759413E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182171641274945E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7962764178233542E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253333342158318E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506000000000002E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4666666666666668E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843333333333334E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521479384350348E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000000000000000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4666666666666668E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182171641274945E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253333342158318E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909302984764963E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411490663697627E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993264699454373E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571497641271930E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620150243613026E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7046788239913692E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478785286267719E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 5.9999999999999998E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8168732211553088E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000000000000003E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702640954128094E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593031361842451E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774454433181706E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1537877689666745E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881501984806333E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856349858708847E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000000000000002E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000000000000000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566590536515389E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2204880871595363E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8806575342546066E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914461594150031E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557441229422568E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8242873267567781E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6642873267567784E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0618653201603939E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121100329819221E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000000000000004E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000000000000000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6188786945579518E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000000000000004E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264746E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680002311735254E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000000000000000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495879717596564E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000000000000000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000000000000000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263488708765472E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735434503811812E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513998747931211E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4688858566283038E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724466797924787E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929442811600957E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1508710849856153E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234206728015016E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273288698579620E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273288698579621E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696062375322207E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5193638815245781E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554354336188905E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2278765650363476E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1115891275149688E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1115891275149688E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000000000000000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1331816163490191E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000000000000009E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000000000000053E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7972825893442060E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931497536786199E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000000000000000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924474768945366E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000000000000000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2969999999999999E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6059999999999999E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500000000000000E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851494840457509E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264746E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000000000000001E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658452563841767E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621074411482704E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2485807588522416E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819489279328801E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5193638815245785E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495879717596564E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168472487730312E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5462675002538017E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899459737769605E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3979551514573267E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5555536304627275E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666660891388181E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401489193138659E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0047872417147826E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028118743251245E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5115865380312496E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534759614093746E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7926625922790132E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1443595371072620E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4681659398875304E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000000000000002E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795054545344446E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639211880822574E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247448316575799E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3391763564246772E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2155842664521872E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569406270144511E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000000000000000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842387034279227E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716109147292161E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842387034279227E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6286501222438378E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000000000000001E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000000000000007E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 2.9999999999999999E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500000000000000E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413159951983948E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000000000000000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000000000000000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000000000000000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.8999999999999995E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6699999999999996E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653588312881502E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806928114075438E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821474906030099E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935642704691813E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856738617428965E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856738617428965E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000000000000000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000000000000000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.8999999999999995E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000000000000000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600000000000015E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5666666666666664E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3710591958073106E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708102374749011E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708102374749011E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411363140952903E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764545256381162E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785430283258826E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5666666666666664E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0604943026601472E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655475769629568E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655475769629568E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279805086108490E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0511922034443398E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556677274606415E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737101002783380E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6666666666666665E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234150300254839E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234150300254830E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8930919945307366E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723679781229460E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6086965476014758E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737101002783380E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6666666666666665E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234150300254839E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234150300254830E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8930919945307366E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723679781229460E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6086965476014758E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5214813504521585E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4666666666666659E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009474899808453E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009474899808275E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803032147486113E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212128589944452E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421309821712241E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5214813504521585E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4666666666666659E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009474899808453E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009474899808275E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803032147486113E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212128589944452E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421309821712241E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772514872311596E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000000000000000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4681659398875304E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5872790895429491E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6529950747013581E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8611980298805435E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028118743251245E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077362912054930E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000000000000003E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000000000000000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491189654661999E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6861615993705556E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000000000000000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997162192590063E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764545256381162E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764545256381162E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6844750434547663E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000000000000000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000000000000000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8300698411454808E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0511922034443397E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0511922034443397E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3634868471399616E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000000000000000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000000000000000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704010734909400E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9510804496076480E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9510804496076480E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723679781229468E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000000000000000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000000000000000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704010734909400E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9510804496076480E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9510804496076480E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723679781229468E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000000000000000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000000000000000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808281848042365E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236174029438850E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236174029438850E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212128589944448E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000000000000000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000000000000000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808281848042365E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236174029438850E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236174029438850E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212128589944448E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000000000000000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000000000000000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7400561799644512E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1382806468087040E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1382806468087040E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8611980298805434E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000000000000000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000000000000000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000000000000000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091095415265283E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091095415265283E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091095415265283E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000000000000000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459567385843644E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004188950962108E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253120320428565E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2716600806791359E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5819537240718782E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9995777371216944E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7969837491271808E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560000000000000E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911207098527977E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4975712620064523E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4414712542464117E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302871964672438E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1508710849856153E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000000000000000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463261712651662E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722256899299905E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5702661289172272E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313000000000000E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313000000000000E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423805E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500000000000000E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500000000000000E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7049999999999997E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2949999999999997E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000000000000001E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692138856227967E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9806924177715423E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849001123070318E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8519834418244170E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0177969703762566E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298236729823884E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449400858618031E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9675704822718380E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042028451802094E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664101010763287E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9695753601530008E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350468581562573E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498188338492177E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388163689348018E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462080656017478E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417160769290948E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981352553168369E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225823887364328E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998642207498645E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9935593088365726E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523496307253152E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5426760591013942E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500000000000000E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500000000000000E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500000000000000E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000000000000000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000000000000002E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044317885488435E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7798808517796122E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5348610218479632E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6036671918781593E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4878582807401261E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6452527878133093E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5462675002538020E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000000000000000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924474768945366E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000000000000000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622634675782194E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000000000000000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412002125924636E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000000000000000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000000000000000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692177288620777E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349532279944219E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185541351284569E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7972825893442064E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932602232220870E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9735808752664923E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8654978868854931E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1838865409838811E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9370693575835407E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7053841181060385E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500000000000000E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370140002030416E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1930619298297470E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8943724617955570E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236075947636635E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457277820192421E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550109833605347E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365045608384312E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019027365030586E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8948712423400426E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9300770639817113E+00 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000000000000000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0328675264714843E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480000000000000E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639494362405117E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639494362405094E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000000000000000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000000000000002E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9010618278257836E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8028989033733535E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000000000000001E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6690576987239827E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000000000000001E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381153974479655E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625216673815295E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2587984996530222E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138183473061762E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138183473061764E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000000000000000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000000000000000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000000000000000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7789730593092941E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1601508574642011E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.5999999999999999E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369447038882812E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818137798037704E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818137798037704E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8865656183136549E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818137798037696E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1601508574642011E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956929285277056E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267258624739774E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948315142332470E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.7999999999999998E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000000000000000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3054510238430169E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9836588543661730E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548406292878596E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682056130009540E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1323545065852485E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641410295671469E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2530712372848891E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000000000000000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019027365030590E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000000000000000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4828607165089854E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000000000000000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000000000000000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749157192869105E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000000000000000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000000000000000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848029863228582E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083304640942495E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050307141931796E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9300770639817113E+00 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5113721395257286E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000000000000000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000000000000000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882175862615429E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523084195014306E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4728841737784283E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.2999999999999999E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8055922834711858E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8596678080552272E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559000445813483E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690112547621213E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000000000000000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1314999999999998E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277296360485266E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203225806451637E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848029863228582E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2689999999999999E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500000000000000E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000000000000000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500000000000001E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000000000000000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000000000000000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423805E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885256727265937E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1757608548070834E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723033759107820E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083304640942495E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000000000000001E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000000000000001E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000000000000011E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000000000000002E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800265219281015E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186030007375011E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848029863228582E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523084195014306E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808296033225190E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5568606976286432E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000000000000000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000000000000000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1843923341322807E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1828538101034028E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886061328822433E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969163207042001E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8682977649526634E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0938595840475620E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605187865268650E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1463659117689817E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5568606976286432E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8682972075874642E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5568606976286432E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1463659117689817E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602475037619976E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1827789336038841E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365274234572041E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296953006801150E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4489669134551838E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000000000000000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462080656017478E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1828792721840587E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313439535630300E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000000000000000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5113721395257286E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083304640942495E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000000000000000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848029863228582E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9300770639817113E+00 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2356772008358388E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523084195014306E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314152404136132E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7314152404136132E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314152404136121E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9405709396602210E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313439535630300E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097122860620416E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1843923341322807E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9412859148315727E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289321967721502E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341203454921679E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000000000000000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684142950377810E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682030476485525E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8682513877690162E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308863600136358E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 +************************************************************************* +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.003843190236783 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.546816593988753 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.000597755323387789 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21443595.371072624 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.93491189654662 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.4856940627014451 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.03230408815355488 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.318322174644904 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.796223900029837e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.4242184436680697 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.185971818905028 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7339078193128556 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.060238763988650204 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.221383528378944 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 85462.67500253802 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8231999768826475 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.97282589344206 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.5153787768966674 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.008012110032981922 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + diff --git a/solution_points/large_tokamak/lt_ineqs_precise_sol_MFILE.DAT b/solution_points/large_tokamak/lt_ineqs_precise_sol_MFILE.DAT new file mode 100644 index 0000000..ce2224b --- /dev/null +++ b/solution_points/large_tokamak/lt_ineqs_precise_sol_MFILE.DAT @@ -0,0 +1,1488 @@ + # PROCESS # + # Power Reactor Optimisation Code # + # PROCESS # + # Power Reactor Optimisation Code # + PROCESS_version_number__________________________________________________ (procver)_____________________ "3.1.0 R" + Date_of_run_____________________________________________________________ (date)________________________ "08/04/2024" + Time_of_run_____________________________________________________________ (time)________________________ "17:19" + User____________________________________________________________________ (username)____________________ "jon" + PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak + PROCESS_tag_number______________________________________________________ (tagno)_______________________ "" + PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "six-model-evals" + PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Merge branch |ukaea:main| into six-model-evals" + Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_precise_sol_IN.DAT " + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + # Final UNFEASIBLE Point # + # Numerics # + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000000000000001E+00 + Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ 7.1472657592330791E-07 + Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ 1.4408541293420285E-07 + Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ 1.1031220381596540E-10 + Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 1.3930368334444942E-03 + Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ 9.5789153628326984E-01 + Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ 8.4016657095808633E-01 + Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 1.2685094491714288E-02 + L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 4.2366925125959376E-01 + Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 1.6466016511692549E+00 + Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ 3.2835988390757853E-02 + Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 2.1523617369163972E-02 + Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ 1.4433246970900915E-01 + CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 6.1201499090579592E-02 + CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.4929370241678686E-01 + I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ 1.5491694790155108E-03 + Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ 7.5582314772559833E-04 + J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ 3.2194204546704963E-03 + TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ 2.3305864783976982E-01 + CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.7543996798930381E-02 + taup/taueff_____________________________________________________________ (ineq_con062)_________________ 5.8727481651641433E-03 + Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ 1.2723120471813081E+00 + CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 2.1059318384457626E-03 + ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ 6.7364958927861829E-01 + Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816131769184960E-03 + TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3726682971826332E-03 + TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478469926473483E-01 + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184110508852179E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214061802967523E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373065250623529E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000000000000000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200000000000003E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294180263409936E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000000000000000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0306766676874581E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641276915104889E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4799999999999999E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767230398711618E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000000000000000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000000000000000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1499999999999998E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8211592959413325E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7873913601260301E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130079210601932E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109273974685442E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3984606064579725E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726178241376999E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000000000000000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166497863402878E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394202683174967E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394202683174967E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5678840536634993E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0791649005296200E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660031860723535E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122058569724179E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964068211059623E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306461560590492E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562112763302423E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701466132836728E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508102823769740E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409103545634798E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010009472003861E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6418726067169061E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1141640664763656E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108485850452720E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517131003701661E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404212380591363E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233044692992783E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2670582092885914E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000000000000000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000000000000000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2670582092885914E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770000000000000E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6799999999999997E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713927387117752E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9678657061843730E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000000000000000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000000000000000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789258444896149E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9833760374787364E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4958812214728567E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1527839888136068E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.7999999999999998E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565176518558033E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835204658901404E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679369269407688E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.5999999999999996E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995199999999999E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2692837151779981E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709370284405457E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3515927417386742E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 8.9999999999999991E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593383668262895E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7417746108221742E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584633443538604E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955401837651436E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1869544320365620E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882494615801706E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910417612101668E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910417612101668E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814014871997946E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487551249009823E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300000000000001E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262341621488487E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154496699787060E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9264700284527592E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234261319919949E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000000000000000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500000000000000E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3830698657701350E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664756491028754E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8399999999999999E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549076591049483E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961059821403881E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.7999999999999998E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000000000000000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951013641245332E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000000000000000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0053786932544973E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544613672668165E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622161472005555E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8190628659834831E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183372254838084E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918614587341071E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4341571406911280E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126018599425235E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000000000000000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000000000000000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184110508852179E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214061802967523E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184110508852179E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000000000000000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000000000000004E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567208657101492E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000000000000000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000000000000000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6666666666666665E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000000000000000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500000000000001E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6517857142857142E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7187938085542798E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000000000000000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333333333333331E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081367139525412E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398222236371524E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738427771245592E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8881711539956693E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091095415265279E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0946658953123900E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568268843995554E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107701385273727E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183221746449041E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968101768657033E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842004944822452E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000000000000000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339078193128556E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0946658953123900E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304088153554886E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282238158373727E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109349535984614E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851252918648016E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000000000000000E+00 OP + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706619596109689E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.7918962861690086E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479237924966832E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8614913867121415E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274127194579088E-01 + 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3799999999999999E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273075375982215E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4606908015233020E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8471821451550285E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181553860444942E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7039759871338004E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208326198532987E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553407103451543E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221383528378944E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016131184593426E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221383528378944E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016131184593426E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491009818944320E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962239000298373E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0246646031169910E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312749570372239E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983306812224104E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024353239136862E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6267995537172013E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992154580660944E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963489151657144E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016632218466960E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000000000000000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027488674766373E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0238763988650211E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.5016814574985222E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 6.0238763988650211E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000000000000000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000000000000000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000000000000000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000000000000000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000000000000000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000000000000000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000000000000000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000000000000000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000000000000000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000000000000000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9775532338778904E-04 ITV + W__concentration________________________________________________________ (fimp(14))____________________ 4.9999999999999996E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844166390168525E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5210461992023783E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000000000000000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000000000000006E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223365373551411E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.4999999999999987E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000000000000006E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000000000000000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000000000000001E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6013744337383186E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000000000000000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500000000000000E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000000000000000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2607764951557882E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058299505437498E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4197750778786202E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159764097767545E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4212588494120852E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445432332866355E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027488674766373E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000000000000000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000000000000000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283471494987166E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400469685270241E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000000000000000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2566942989974336E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000000000000000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033572477809735E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605187865268650E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682972075874636E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414965159168275E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430403895064029E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078007670142595E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000000000000009E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000000000000011E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000000000000009E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969163207041959E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3082784857290920E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1879701177995116E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6561582535796939E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148229282514502E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300000000000001E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000000000000000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7103603510773293E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283471494987182E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215070461955549E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3606541795759036E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000000000000000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700000000000000E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.0999999999999998E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.0999999999999998E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000000000000008E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778682136261203E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9827859659497832E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1463659117689784E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.4999999999999996E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164192126748128E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835807873251872E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247175835349779E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638885493472660E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000000000000000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5568606976286375E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803270897879520E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004088622349400E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9722610273227286E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708092218727381E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770623930782278E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378016952604753E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858003037135910E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6807612148873511E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842416978627824E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695394422085602E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730889736399632E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709835237397982E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221161971587549E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836490172750885E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019441728918775E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082065647247511E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2177599412762632E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6116899894301127E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767261883918930E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544517268223814E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345525475398784E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842416978627824E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695394422085602E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730889736399632E+01 OP + L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.6842416978627824E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1859718189050279E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515331418067846E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515331418067850E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515331418067846E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790435611887193E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075203792007798E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886055755170440E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969163207041959E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347270137331341E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0293637408258212E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000000000000000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7281789731025796E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109349535984628E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9375932379021273E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7307578036350026E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6814508068158602E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798626456150396E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056538204681948E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000000000000004E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529600480801527E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889128203388299E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000000000000000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958752287538017E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2251873872162732E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103555996343994E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703369430742894E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537174340555317E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878200874438033E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9073679338199395E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2251873872162732E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000000000000000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000000000000000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197311948930779E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1227731797685358E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9524781957964697E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4328756128565802E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000000000000000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000000000000000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6810894573589527E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112154188382326E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414237052664427E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000000000000000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000000000000000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6860697628637524E-01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000000000000007E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1399550873986612E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350114471003802E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100209127981158E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000000000000004E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000000000000000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000000000000004E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2251873872162732E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000000000000000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000000000000000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997049464424485E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578155633193018E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000000000000000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2421844366806977E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5568606976286375E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000000000000000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000000000000000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5113721395257275E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722422897692229E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909498252762103E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889128203388299E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000000000000000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091095415265281E+02 + Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000000000000000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913326803403434E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091095415265281E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000000000000000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9231545886456497E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4681659398875293E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7947687516318231E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000000000000002E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2672586247397692E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000000000000003E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000000000000000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000000000000004E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000000000000004E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000000000000000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000000000000007E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000000000000002E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000000000000000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000000000000000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000000000000002E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000000000000000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000000000000004E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000000000000004E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668127176836800E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000000000000003E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2672586247397692E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6036671918781593E+00 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300000000000001E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000000000000004E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 5.9999999999999998E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000000000000009E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000000000000002E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 5.9999999999999998E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333333333333336E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0018838307941582E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000000000000011E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 6.9999999999999996E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000000000000004E-01 + External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000000000000002E-01 + Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000000000000002E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.7999999999999996E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6666666666666670E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333333333333336E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000000000000000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000000000000000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000000000000000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500000000000001E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694191539707965E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422222222222226E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933333333333330E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6666666666666670E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333333333333336E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0819987621919880E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0428688795434875E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000000000000000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000000000000000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000000000000000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000000000000000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000000000000000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000000000000000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6882620831496986E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400323196709277E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656136096266414E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725428159852314E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109105566727559E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075218233566240E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4222827320172460E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291127751304742E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496492988582254E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7837989034815589E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949161651762665E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744266467793896E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0018838307941582E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000000000000000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000000000000000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185063142677883E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1533924338568596E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398129337699037E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522204343860888E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8848669309786465E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8894929966109878E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002261034255895E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865093088181555E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897191000365770E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5223697586718374E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839224173153108E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002261034255895E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604225102088869E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841485207409000E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1339555498206755E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6278939198944408E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4495736006982762E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5300968168750197E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0774675205927169E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681708668641430E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684029772807755E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5988727971865134E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619704029788429E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984842315587336E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2672586247397692E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2672586247397692E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145348951759411E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182171641274945E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7962764178233542E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253333342158314E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506000000000002E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4666666666666668E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843333333333343E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521479384350348E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000000000000000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4666666666666668E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182171641274945E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253333342158314E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909302984764963E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411490663697617E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993264699454365E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571497641271930E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620150243613114E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7046788239913769E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478785286267663E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 5.9999999999999998E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8168732211553088E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000000000000003E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702640954128036E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593031361842440E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774454433181694E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1537877689666733E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881501984806333E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856349858708847E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000000000000002E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000000000000000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566590536515389E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2204880871595374E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8806575342546170E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914461594150020E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557441229422562E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8242873267567781E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6642873267567784E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0618653201603933E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121100329819239E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000000000000004E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000000000000000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6188786945579511E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000000000000004E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264757E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680002311735243E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000000000000000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495879717596546E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000000000000000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000000000000000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263488708765353E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735434503811775E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513998747931211E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4688858566283084E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724466797924781E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929442811600887E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1508710849856142E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234206728015016E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273288698579614E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273288698579615E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696062375322207E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5193638815245777E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554354336188909E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2278765650363468E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1115891275149679E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1115891275149679E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000000000000000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1331816163490161E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000000000000009E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000000000000053E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7972825893442060E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931497536786154E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000000000000000E+01 + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924474768945313E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000000000000000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2969999999999999E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6059999999999999E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500000000000000E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851494840457509E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264757E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000000000000001E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658452563841771E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621074411482704E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2485807588522409E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819489279328756E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5193638815245777E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495879717596546E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168472487730300E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5462675002538017E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899459737769671E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3979551514573267E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5555536304627275E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666660891388181E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401489193138666E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0047872417147826E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028118743251246E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5115865380312496E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534759614093746E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7926625922790132E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1443595371072624E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4681659398875293E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000000000000002E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795054545344428E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639211880822565E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247448316575794E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3391763564246768E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2155842664521863E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569406270144511E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000000000000000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842387034279227E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716109147292161E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842387034279227E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6286501222438378E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000000000000001E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000000000000007E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 2.9999999999999999E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500000000000000E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413159951983957E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000000000000000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000000000000000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000000000000000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.8999999999999995E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6699999999999996E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653588312881498E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806928114075424E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821474906030064E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935642704691809E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856738617428982E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856738617428982E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000000000000000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000000000000000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.8999999999999995E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000000000000000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600000000000015E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5666666666666664E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3710591958073106E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708102374749011E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708102374749011E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411363140952892E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764545256381158E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785430283258817E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5666666666666664E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0604943026601472E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655475769629550E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655475769629568E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279805086108468E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0511922034443387E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556677274606352E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737101002783380E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6666666666666665E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234150300254839E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234150300254830E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8930919945307360E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723679781229443E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6086965476014750E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737101002783380E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6666666666666665E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234150300254839E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234150300254830E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8930919945307360E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723679781229443E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6086965476014750E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5214813504521585E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4666666666666659E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009474899808453E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009474899808275E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803032147486110E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212128589944435E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421309821712241E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5214813504521585E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4666666666666659E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009474899808453E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009474899808275E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803032147486110E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212128589944435E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421309821712241E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772514872311596E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000000000000000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4681659398875304E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5872790895429491E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6529950747013581E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8611980298805435E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028118743251246E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077362912054930E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000000000000003E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000000000000000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491189654661999E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6861615993705539E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000000000000000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997162192590062E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764545256381158E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764545256381158E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6844750434547471E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000000000000000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000000000000000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8300698411454812E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0511922034443386E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0511922034443386E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3634868471399657E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000000000000000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000000000000000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704010734909395E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9510804496076461E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9510804496076461E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723679781229440E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000000000000000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000000000000000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704010734909395E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9510804496076461E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9510804496076461E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723679781229440E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000000000000000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000000000000000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808281848042365E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236174029438822E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236174029438822E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212128589944439E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000000000000000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000000000000000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808281848042365E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236174029438822E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236174029438822E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212128589944439E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000000000000000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000000000000000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7400561799644512E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1382806468087006E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1382806468087006E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8611980298805434E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000000000000000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000000000000000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000000000000000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091095415265281E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091095415265281E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091095415265281E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000000000000000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459567385843635E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004188950962080E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253120320428550E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2716600806791354E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5819537240718782E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9995777371216932E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7969837491271773E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560000000000000E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911207098527977E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4975712620064509E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4414712542464089E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302871964672438E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1508710849856142E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000000000000000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463261712651662E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722256899299905E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5702661289172272E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313000000000000E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313000000000000E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423801E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500000000000000E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500000000000000E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7049999999999997E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2949999999999997E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000000000000001E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692138856227967E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9806924177715423E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849001123070318E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8519834418244170E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0177969703762566E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298236729823884E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449400858618031E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9675704822718380E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042028451802094E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664101010763287E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9695753601530008E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350468581562573E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498188338492177E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388163689348018E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462080656017443E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417160769290948E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981352553168369E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225823887364328E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998642207498645E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9935593088365726E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523496307253152E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5426760591013942E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500000000000000E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500000000000000E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500000000000000E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000000000000000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000000000000002E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044317885488435E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7798808517796122E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5348610218479632E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6036671918781593E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4878582807401261E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6452527878133093E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5462675002538020E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000000000000000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924474768945313E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000000000000000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622634675782166E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000000000000000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412002125924619E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000000000000000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000000000000000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692177288620771E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349532279944211E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185541351284555E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7972825893442057E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932602232220853E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9735808752664923E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8654978868854916E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1838865409838796E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9370693575835407E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7053841181060371E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500000000000000E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370140002030416E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1930619298297470E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8943724617955570E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236075947636635E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457277820192421E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550109833605320E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365045608384305E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019027365030583E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8948712423400412E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9300770639817113E+00 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000000000000000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0328675264714849E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480000000000000E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639494362405117E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639494362405117E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000000000000000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000000000000002E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9010618278257833E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8028989033733535E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000000000000001E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6690576987239827E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000000000000001E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381153974479655E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625216673815295E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2587984996530222E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138183473061762E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138183473061764E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000000000000000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000000000000000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000000000000000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7789730593092941E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1601508574642011E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.5999999999999999E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369447038882812E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818137798037704E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818137798037704E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8865656183136549E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818137798037696E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1601508574642011E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956929285277056E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267258624739770E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948315142332470E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.7999999999999998E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000000000000000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3054510238430169E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9836588543661730E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548406292878596E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682056130009540E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1323545065852485E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641410295671469E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2530712372848891E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000000000000000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019027365030583E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000000000000000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4828607165089854E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000000000000000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000000000000000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749157192869105E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000000000000000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000000000000000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848029863228582E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083304640942495E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050307141931739E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9300770639817113E+00 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5113721395257275E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000000000000000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000000000000000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882175862615406E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523084195014306E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4728841737784276E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.2999999999999999E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8055922834711840E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8596678080552272E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559000445813483E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690112547621213E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000000000000000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1314999999999998E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277296360485266E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203225806451637E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848029863228582E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2689999999999999E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500000000000000E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000000000000000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500000000000001E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000000000000000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000000000000000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423801E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885256727265937E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1757608548070834E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723033759107815E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083304640942495E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000000000000001E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000000000000001E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000000000000011E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000000000000002E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800265219281015E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186030007375011E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848029863228582E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523084195014306E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808296033225190E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5568606976286375E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000000000000000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000000000000000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1843923341322801E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1828538101034028E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886061328822439E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969163207041959E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8682977649526634E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0938595840475620E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605187865268650E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1463659117689784E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5568606976286375E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8682972075874636E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5568606976286375E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1463659117689784E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602475037619976E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1827789336038841E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365274234572041E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296953006801150E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4489669134551838E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000000000000000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462080656017443E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1828792721840587E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313439535630312E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000000000000000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5113721395257275E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083304640942495E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000000000000000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848029863228582E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9300770639817113E+00 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2356772008358383E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523084195014306E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314152404136132E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7314152404136132E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314152404136121E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9405709396602210E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313439535630312E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097122860620416E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1843923341322801E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9412859148315729E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289321967721509E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341203454921690E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000000000000000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684142950377799E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682030476485525E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8682513877690162E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308863600136358E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 135 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************ Once through only: no optimisation +ioptimz = -2 +* Define number of equality constraints, and +* use inequality constraints: corresponding f-values removed +neqns = 3 + +*--------------------------------------------------* + + +*---------------Constraint Equations---------------* + +icc = 1 * Beta +icc = 2 * Global power balance +icc = 11 * Radial build +icc = 5 * Density upper limit +icc = 8 * Neutron wall load upper limit +icc = 9 * Fusion power upper limit +icc = 13 * Burn time lower limit +icc = 15 * LH power threshold limit +icc = 30 * Injection power upper limit +icc = 16 * Net electric power lower limit +icc = 24 * Beta upper limit +icc = 25 * Peak toroidal field upper limit +icc = 26 * Central solenoid EOF current density upper limit +icc = 27 * Central solenoid BOP current density upper limit +icc = 33 * I_op +icc = 34 * Dump voltage upper limit +icc = 35 * J_winding pack +icc = 36 * TF coil temperature margin lower limit +icc = 60 * Central solenoid temperature margin lower limit +icc = 62 * taup +icc = 65 * Dump time set by VV loads +icc = 72 * central solenoid shear stress limit +icc = 81 * Ne +icc = 68 * Psep +icc = 31 * TF coil case stress upper limit +icc = 32 * TF coil conduit stress upper limit + +*---------------Iteration Variables----------------* + +ixc = 2 * bt +ixc = 3 * rmajor +boundl(3) = 8.0 +boundu(3) = 9.0 +ixc = 4 * te +boundu(4) = 100.0 +ixc = 5 * beta +ixc = 6 * dene +ixc = 10 * hfact +boundu(10) = 1.2 +ixc = 13 * tfcth +boundl(13) = 0.7 +ixc = 16 * ohcth +boundl(16) = 0.3 +ixc = 18 * q +boundl(18) = 3.0 +ixc = 29 * bore +boundl(29) = 0.1 +ixc = 37 * coheof +ixc = 41 * fcohbop +ixc = 44 * fvsbrnni +ixc = 56 * tdmptf +ixc = 57 * thkcas +ixc = 58 * thwcndut +boundl(58) = 0.008 +ixc = 59 * fcutfsu +boundl(59) = 0.50 +boundu(59) = 0.94 +ixc = 60 * cpttf +boundl(60) = 65000.0 +boundu(60) = 90000.0 +ixc = 109 * ralpne +boundu(109) = 0.1 +ixc = 122 * oh_steel_frac +ixc = 135 * fimp(13) +ixc = 140 * dr_tf_wp +boundl(140) = 0.4 + +*---------------Cs Fatigue Variables---------------* + + +*------------------- Costs 1990--------------------* + + +*------------------- Costs 2015--------------------* + + +*-----------------Blanket Library------------------* + + +*----------------------Build-----------------------* + + +*-----------------Build Variables------------------* + +blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) +blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` +bore = 2.003843190236783 * central solenoid inboard radius (m) (`iteration variable 29`) +ddwex = 0.15 * cryostat thickness (m) +d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) +d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) +d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) +d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) +gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) +ohcth = 0.546816593988753 * Central solenoid thickness (m) (`iteration variable 16`) +scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) +scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) +shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) +shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) +tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) +thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) +thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) +thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) +vvblgap = 0.02 * gap between vacuum vessel and blanket (m) + +*---------------Buildings Variables----------------* + + +*-----------------Ccfe Hcpb Module-----------------* + + +*---------------Const And Precisions---------------* + + +*--------------------Constants---------------------* + + +*---------------Constraint Variables---------------* + +bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) +fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) +fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) +fiooic = 0.65 * f-value for TF coil operating current / critical current ratio +fjohc = 0.6 * f-value for central solenoid current at end-of-flattop +fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse +fjprot = 1.0 * f-value for TF coil winding pack current density +foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid +fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV +fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) +fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) +pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) +powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) +psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) +tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) +walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) +taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement + +*-------------------Constraints--------------------* + + +*------------------Cost Variables------------------* + +cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` +cost_model = 0 * Switch for cost model; +iavail = 0 * Switch for plant availability model; +output_costs = 1 * Switch for costs output; + +*----------------------Costs-----------------------* + + +*-------------Current Drive Variables--------------* + +bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; +etaech = 0.5 * ECH wall plug to injector efficiency +gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) +iefrf = 10 * Switch for current drive efficiency model; +pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) +pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) + +*-------------------Dcll Module--------------------* + + +*------------Define Iteration Variables------------* + + +*----------------Divertor Variables----------------* + +divfix = 0.62 * divertor structure vertical thickness (m) + +*------------------Error Handling------------------* + + +*-------------------Final Module-------------------* + + +*-------------------Fson Library-------------------* + + +*-------------------Fson Path M--------------------* + + +*------------------Fson String M-------------------* + + +*-------------------Fson Value M-------------------* + + +*----------------Function Evaluator----------------* + + +*--------------------Fw Module---------------------* + + +*-------------------Fwbs Module--------------------* + + +*------------------Fwbs Variables------------------* + +inuclear = 1 * switch for nuclear heating in the coils; +qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) +primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall +secondary_cycle = 2 * Switch for power conversion cycle; +vfshld = 0.60 * coolant void fraction in shield +etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps +etahtp = 0.87 * electrical efficiency of primary coolant pumps + +*-----------------Global Variables-----------------* + +runtitle = generic large tokamak * short descriptive title for the run + +*-------------Heat Transport Variables-------------* + +etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; +ipowerflow = 0 * switch for power flow model; +iprimshld = 1 * Switch for shield thermal power destiny; + +*--------------------Ife Module--------------------* + + +*------------------Ife Variables-------------------* + + +*------------Impurity Radiation Module-------------* + +coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region +coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power +fimp(1) = 0.9 +fimp(2) = 0.1 +fimp(3) = 0.0 +fimp(4) = 0.0 +fimp(5) = 0.0 +fimp(6) = 0.0 +fimp(7) = 0.0 +fimp(8) = 0.0 +fimp(9) = 0.0 +fimp(10) = 0.0 +fimp(11) = 0.0 +fimp(12) = 0.0 +fimp(13) = 0.000597755323387789 +fimp(14) = 5e-06 + +*-------------------Init Module--------------------* + + +*-------------------Main Module--------------------* + + +*------------------Maths Library-------------------* + + +*--------------Neoclassics Constants---------------* + + +*----------------Neoclassics Module----------------* + + +*---------------------Numerics---------------------* + +minmax = 1 * +neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied +epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON + +*----------------Pf Power Variables----------------* + + +*------------------Pfcoil Module-------------------* + + +*-----------------Pfcoil Variables-----------------* + +alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) +coheof = 21443595.371072624 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) +fcohbop = 0.93491189654662 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcuohsu = 0.70 * copper fraction of strand in central solenoid +ipfloc = 2,2,3,3 * Switch for location of PF coil group i; +isumatoh = 1 * switch for superconductor material in central solenoid; +isumatpf = 3 * switch for superconductor material in PF coils; +ncls = 1,1,2,2 * number of PF coils in group j +ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group +ohhghf = 0.9 * Central solenoid height / TF coil internal height +oh_steel_frac = 0.4856940627014451 * central solenoid steel fraction (`iteration variable 122`) +rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak +rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at +sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) +zref(1) = 3.6 +zref(2) = 1.2 +zref(3) = 1.0 +zref(4) = 2.8 +zref(5) = 1.0 +zref(6) = 1.0 +zref(7) = 1.0 +zref(8) = 1.0 +zref(9) = 1.0 +zref(10) = 1.0 + +*-------------Physics Functions Module-------------* + + +*------------------Physics Module------------------* + + +*----------------Physics Variables-----------------* + +alphan = 1.00 * density profile index +alphat = 1.45 * temperature profile index +aspect = 3.0 * aspect ratio (`iteration variable 1`) +beta = 0.03230408815355488 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.318322174644904 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.796223900029837e+19 * electron density (/m3) (`iteration variable 6`) +dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated +fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix +fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) +fvsbrnni = 0.4242184436680697 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +gamma = 0.3 * Ejima coefficient for resistive startup V-s formula +hfact = 1.185971818905028 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +ibss = 4 * switch for bootstrap current scaling +iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) +icurr = 4 * switch for plasma current scaling to use +idensl = 7 * switch for density limit to enforce (`constraint equation 5`) +ifalphap = 1 * switch for fast alpha pressure calculation +iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; +ipedestal = 1 * switch for pedestal profiles; +neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) +nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) +plasma_res_factor = 0.7 * plasma resistivity pre-factor +rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) +rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) +tbeta = 2.0 * temperature profile index beta (`ipedestal==1) +teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) +tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke +iprofile = 1 * switch for current profile consistency; +isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) +ishape = 0 * switch for plasma cross-sectional shape calculation; +kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) +q = 3.7339078193128556 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q0 = 1.0 * safety factor on axis +ralpne = 0.060238763988650204 * thermal alpha density/electron density (`iteration variable 109`) +rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) +i_single_null = 1 * switch for single null / double null plasma; +ssync = 0.6 * synchrotron wall reflectivity factor +te = 12.221383528378944 * volume averaged electron temperature (keV) (`iteration variable 4`) +triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) + +*----------------------Power-----------------------* + + +*------------Primary Pumping Variables-------------* + + +*------------------Process Input-------------------* + + +*------------------Process Output------------------* + + +*-----------------Profiles Module------------------* + + +*-----------------Pulse Variables------------------* + +lpulse = 1 * Switch for reactor model; + +*-----------------Rebco Variables------------------* + + +*------------------Reinke Module-------------------* + + +*-----------------Reinke Variables-----------------* + + +*---------------Resistive Materials----------------* + + +*-------------------Scan Module--------------------* + + +*-----------------Sctfcoil Module------------------* + + +*----------------Startup Variables-----------------* + + +*------------Stellarator Configuration-------------* + + +*----------------Stellarator Module----------------* + + +*--------------Stellarator Variables---------------* + + +*---------------Structure Variables----------------* + + +*-----------------Tfcoil Variables-----------------* + +sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) +sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) +casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) +casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) +cpttf = 85462.67500253802 * TF coil current per turn (A); (calculated for stellarators) (calculated for +dhecoil = 0.01 * diameter of central helium channel in TF winding (m) +fcutfsu = 0.8231999768826475 * copper fraction of cable conductor (TF coils) +i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; +ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) +tdmptf = 17.97282589344206 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST +tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) +thkcas = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.5153787768966674 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.008012110032981922 * TF coil conduit case thickness (m) (`iteration variable 58`) +tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) +tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) +tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) +vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) +vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) + +*-----------------Times Variables------------------* + +pulsetimings = 0 * Switch for pulse timings (if lpulse=1); +tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) +tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs + +*--------------------Utilities---------------------* + + +*-----------------Vacuum Variables-----------------* + + +*--------------Water Usage Variables---------------* + From 3a1860808f1c608c7d80d766eb2c5748e73bc511 Mon Sep 17 00:00:00 2001 From: Jonathan Maddock <78556175+jonmaddock@users.noreply.github.com> Date: Wed, 10 Apr 2024 16:13:18 +0100 Subject: [PATCH 14/14] Investigate creating feasible non-optimised outputs Should be feasible and identical to optimised solution. --- ra/metrics/large_tokamak_sol_IN_DAT.template | 486 - .../metrics/lt_ineqs_after_ra_mods.template | 6 + ...=> lt_ineqs_before_conv_crit_mod.template} | 42 +- ra/metrics/ra_analysis w.ipynb | 338 - ra/metrics/ra_analysis.ipynb | 227 +- ra/metrics/ra_eval.ipynb | 20548 ++++++++-------- .../large_tokamak/lt_ineqs_10_evals_IN.DAT | 594 - .../large_tokamak/lt_ineqs_10_evals_MFILE.DAT | 1714 -- .../lt_ineqs_10_evals_sol_IN.DAT | 443 - .../lt_ineqs_10_evals_sol_MFILE.DAT | 1488 -- .../large_tokamak/lt_ineqs_6_evals_IN.DAT | 594 - .../large_tokamak/lt_ineqs_6_evals_MFILE.DAT | 1714 -- .../large_tokamak/lt_ineqs_6_evals_sol_IN.DAT | 443 - .../lt_ineqs_6_evals_sol_MFILE.DAT | 1488 -- solution_points/large_tokamak/lt_ineqs_IN.DAT | 594 - .../large_tokamak/lt_ineqs_MFILE.DAT | 1714 -- .../large_tokamak/lt_ineqs_precise_IN.DAT | 594 - .../large_tokamak/lt_ineqs_precise_MFILE.DAT | 1714 -- .../lt_ineqs_precise_sol_MFILE.DAT | 1488 -- .../large_tokamak/lt_ineqs_sol_IN.DAT | 443 - .../large_tokamak/lt_ineqs_sol_MFILE.DAT | 1488 -- .../large_tokamak/lt_ineqs_std_IN.DAT | 437 - .../constraint_residuals.csv | 0 .../lt_feas_non_opt_sol.ipynb | 4 +- tools/prep_sol_for_ra.ipynb | 351 + .../standardise_input.ipynb | 0 26 files changed, 10839 insertions(+), 28113 deletions(-) delete mode 100644 ra/metrics/large_tokamak_sol_IN_DAT.template rename solution_points/large_tokamak/lt_ineqs_precise_sol_IN.DAT => ra/metrics/lt_ineqs_after_ra_mods.template (98%) rename ra/metrics/{lt_ineqs_6_evals_sol_IN_DAT.template => lt_ineqs_before_conv_crit_mod.template} (88%) delete mode 100644 ra/metrics/ra_analysis w.ipynb delete mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_IN.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_sol_IN.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_sol_IN.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_IN.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_precise_IN.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_precise_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_precise_sol_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_sol_IN.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT delete mode 100644 solution_points/large_tokamak/lt_ineqs_std_IN.DAT rename {solution_points/large_tokamak => studies}/constraint_residuals.csv (100%) rename solution_points/large_tokamak/lt_feas_non_opt.ipynb => studies/lt_feas_non_opt_sol.ipynb (99%) create mode 100644 tools/prep_sol_for_ra.ipynb rename {solution_points/large_tokamak => tools}/standardise_input.ipynb (100%) diff --git a/ra/metrics/large_tokamak_sol_IN_DAT.template b/ra/metrics/large_tokamak_sol_IN_DAT.template deleted file mode 100644 index 0f0e4ed..0000000 --- a/ra/metrics/large_tokamak_sol_IN_DAT.template +++ /dev/null @@ -1,486 +0,0 @@ -*--------------------------------------------------* - - -*---------------Constraint Equations---------------* - -icc = 1 * Beta -icc = 2 * Global power balance -icc = 11 * Radial build -icc = 5 * Density upper limit -icc = 8 * Neutron wall load upper limit -icc = 9 * Fusion power upper limit -icc = 13 * Burn time lower limit -icc = 15 * LH power threshold limit -icc = 30 * Injection power upper limit -icc = 16 * Net electric power lower limit -icc = 24 * Beta upper limit -icc = 25 * Peak toroidal field upper limit -icc = 26 * Central solenoid EOF current density upper limit -icc = 27 * Central solenoid BOP current density upper limit -icc = 33 * I_op -icc = 34 * Dump voltage upper limit -icc = 35 * J_winding pack -icc = 36 * TF coil temperature margin lower limit -icc = 60 * Central solenoid temperature margin lower limit -icc = 62 * taup -icc = 65 * Dump time set by VV loads -icc = 72 * central solenoid shear stress limit -icc = 81 * Ne -icc = 68 * Psep -icc = 31 * TF coil case stress upper limit -icc = 32 * TF coil conduit stress upper limit - -*---------------Iteration Variables----------------* - -ixc = 2 * bt -ixc = 3 * rmajor -boundl(3) = 8.0 -boundu(3) = 9.0 -ixc = 4 * te -boundu(4) = 100.0 -ixc = 5 * beta -ixc = 6 * dene -ixc = 10 * hfact -boundu(10) = 1.2 -ixc = 13 * tfcth -boundl(13) = 0.7 -ixc = 14 * fwalld -ixc = 16 * ohcth -boundl(16) = 0.3 -ixc = 18 * q -boundl(18) = 3.0 -ixc = 21 * ftburn -ixc = 25 * fpnetel -ixc = 26 * ffuspow -ixc = 29 * bore -boundl(29) = 0.1 -ixc = 35 * fpeakb -ixc = 36 * fbetatry -ixc = 37 * coheof -ixc = 38 * fjohc -boundu(38) = 1.0 -ixc = 39 * fjohc0 -boundu(39) = 1.0 -ixc = 41 * fcohbop -ixc = 44 * fvsbrnni -ixc = 46 * fpinj -ixc = 48 * fstrcase -ixc = 49 * fstrcond -ixc = 50 * fiooic -boundu(50) = 1.0 -ixc = 51 * fvdump -boundu(52) = 10.0 -ixc = 53 * fjprot -ixc = 54 * ftmargtf -ixc = 56 * tdmptf -ixc = 57 * thkcas -ixc = 58 * thwcndut -boundl(58) = 0.008 -ixc = 59 * fcutfsu -boundl(59) = 0.50 -boundu(59) = 0.94 -ixc = 60 * cpttf -boundl(60) = 65000.0 -boundu(60) = 90000.0 -ixc = 103 * flhthresh -boundu(103) = 10.0 -ixc = 106 * ftmargoh -ixc = 109 * ralpne -boundu(109) = 0.1 -ixc = 110 * ftaulimit -ixc = 113 * fmaxvvstress -ixc = 117 * fpsepbqar -ixc = 122 * oh_steel_frac -ixc = 123 * foh_stress -ixc = 135 * fimp(13) -ixc = 140 * dr_tf_wp -boundl(140) = 0.4 -ixc = 154 * fne0 - -*---------------Cs Fatigue Variables---------------* - - -*------------------- Costs 1990--------------------* - - -*------------------- Costs 2015--------------------* - - -*-----------------Blanket Library------------------* - - -*----------------------Build-----------------------* - - -*-----------------Build Variables------------------* - -blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 1.9854 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.57587 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5087 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -ffuspow = 0.54006 * f-value for maximum fusion power (`constraint equation 9`, `iteration variable 26`) -fiooic = 0.71737 * f-value for TF coil operating current / critical current ratio -fjohc = 0.55541 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.5419 * f-value for central solenoid current at beginning of pulse -fjprot = 0.99639 * f-value for TF coil winding pack current density -flhthresh = 1.6735 * f-value for L-H power threshold (`constraint equation 15`, `iteration variable 103`) -foh_stress = 0.90092 * f-value for Tresca yield criterion in Central Solenoid -fpeakb = 0.86988 * f-value for maximum toroidal field (`constraint equation 25`, `iteration variable 35`) -fpinj = 0.40071 * f-value for injection power (`constraint equation 30`, `iteration variable 46`) -fpnetel = 1.0 * f-value for net electric power (`constraint equation 16`, `iteration variable 25`) -fpsepbqar = 1.0 * f-value for maximum Psep*Bt/qAR limit (`constraint equation 68`, `iteration variable 117`) -fstrcase = 0.9967 * f-value for maximum TF coil case Tresca yield criterion -fstrcond = 0.85185 * f-value for maxiumum TF coil conduit Tresca yield criterion -fmaxvvstress = 0.42966 * f-value for maximum permitted stress of the VV -ftburn = 0.9994 * f-value for minimum burn time (`constraint equation 13`, `iteration variable 21`) -ftmargoh = 0.99653 * f-value for central solenoid temperature margin -ftmargtf = 0.99673 * f-value for TF coil temperature margin (`constraint equation 36`, `iteration variable 54`) -fvdump = 0.95837 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 0.50758 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement -ftaulimit = 0.7193 * f-value for lower limit on taup/taueff the ratio of alpha particle to energy - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00038 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 20264000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.9438 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.51868 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.033648 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.294 * toroidal field on axis (T) (`iteration variable 2`) -dene = 8.0667e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fne0 = 0.59638 * f-value for the constraint ne(0) > ne(ped) (`constraint equation 81`) -fvsbrnni = 0.43358 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.1886 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.5961 * safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.083954 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.489 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 89795.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.84212 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 18.429 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.28216 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.50416 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.0080099 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 9.5837 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - -****************************** -* Modifications for reliability analysis: overwrites any previous values -****************************** -* Once through only -ioptimz = -2 * no optimisation -neqns = 3 * distinguish between equality and inequality constraints - -fimp(14) = $fimp_14 * W impurity fraction -psepbqarmax = $psepbqarmax * divertor protection limit -triang = $triang * triangularity diff --git a/solution_points/large_tokamak/lt_ineqs_precise_sol_IN.DAT b/ra/metrics/lt_ineqs_after_ra_mods.template similarity index 98% rename from solution_points/large_tokamak/lt_ineqs_precise_sol_IN.DAT rename to ra/metrics/lt_ineqs_after_ra_mods.template index 603461d..8b0e875 100644 --- a/solution_points/large_tokamak/lt_ineqs_precise_sol_IN.DAT +++ b/ra/metrics/lt_ineqs_after_ra_mods.template @@ -441,3 +441,9 @@ tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs *--------------Water Usage Variables---------------* +****************************** +* Modifications for reliability analysis: overwrites any previous values +****************************** +fimp(14) = $fimp_14 * W impurity fraction +psepbqarmax = $psepbqarmax * divertor protection limit +triang = $triang * triangularity \ No newline at end of file diff --git a/ra/metrics/lt_ineqs_6_evals_sol_IN_DAT.template b/ra/metrics/lt_ineqs_before_conv_crit_mod.template similarity index 88% rename from ra/metrics/lt_ineqs_6_evals_sol_IN_DAT.template rename to ra/metrics/lt_ineqs_before_conv_crit_mod.template index de6b874..22c24fe 100644 --- a/ra/metrics/lt_ineqs_6_evals_sol_IN_DAT.template +++ b/ra/metrics/lt_ineqs_before_conv_crit_mod.template @@ -95,14 +95,14 @@ boundl(140) = 0.4 blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) +bore = 1.9538096403866128 * central solenoid inboard radius (m) (`iteration variable 29`) ddwex = 0.15 * cryostat thickness (m) d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) +ohcth = 0.5699418715863596 * Central solenoid thickness (m) (`iteration variable 16`) scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) @@ -246,7 +246,7 @@ fimp(9) = 0.0 fimp(10) = 0.0 fimp(11) = 0.0 fimp(12) = 0.0 -fimp(13) = 0.00038 +fimp(13) = 0.0005676083884529063 fimp(14) = 5e-06 *-------------------Init Module--------------------* @@ -279,9 +279,9 @@ epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON *-----------------Pfcoil Variables-----------------* alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) +coheof = 20910063.408582743 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top +fcohbop = 0.9253870649759701 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top fcuohsu = 0.70 * copper fraction of strand in central solenoid ipfloc = 2,2,3,3 * Switch for location of PF coil group i; isumatoh = 1 * switch for superconductor material in central solenoid; @@ -289,7 +289,7 @@ isumatpf = 3 * switch for superconductor material in PF coils; ncls = 1,1,2,2 * number of PF coils in group j ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) +oh_steel_frac = 0.4666244422630157 * central solenoid steel fraction (`iteration variable 122`) rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) @@ -315,15 +315,15 @@ zref(10) = 1.0 alphan = 1.00 * density profile index alphat = 1.45 * temperature profile index aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) +beta = 0.032875409159602936 * total plasma beta (`iteration variable 5`) (calculated if stellarator) +bt = 5.3432605090882115 * toroidal field on axis (T) (`iteration variable 2`) +dene = 7.968944559592192e+19 * electron density (/m3) (`iteration variable 6`) dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) +fvsbrnni = 0.43455894250944155 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); +hfact = 1.2 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); ibss = 4 * switch for bootstrap current scaling iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) icurr = 4 * switch for plasma current scaling to use @@ -343,13 +343,13 @@ iprofile = 1 * switch for current profile consistency; isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) ishape = 0 * switch for plasma cross-sectional shape calculation; kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 +q = 3.6740980326674357 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 q0 = 1.0 * safety factor on axis -ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) +ralpne = 0.08184572822808084 * thermal alpha density/electron density (`iteration variable 109`) rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) i_single_null = 1 * switch for single null / double null plasma; ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) +te = 12.529208872441531 * volume averaged electron temperature (keV) (`iteration variable 4`) triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) *----------------------Power-----------------------* @@ -410,17 +410,17 @@ sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in T sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for +cpttf = 79653.5996379021 * TF coil current per turn (A); (calculated for stellarators) (calculated for dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) +fcutfsu = 0.8279235435984497 * copper fraction of cable conductor (TF coils) i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) +tdmptf = 19.516156838432067 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) +thkcas = 0.27817131748284374 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) +dr_tf_wp = 0.5446354488716441 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) +thwcndut = 0.008 * TF coil conduit case thickness (m) (`iteration variable 58`) tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) @@ -446,4 +446,4 @@ tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs ****************************** fimp(14) = $fimp_14 * W impurity fraction psepbqarmax = $psepbqarmax * divertor protection limit -triang = $triang * triangularity +triang = $triang * triangularity \ No newline at end of file diff --git a/ra/metrics/ra_analysis w.ipynb b/ra/metrics/ra_analysis w.ipynb deleted file mode 100644 index ed9c748..0000000 --- a/ra/metrics/ra_analysis w.ipynb +++ /dev/null @@ -1,338 +0,0 @@ -{ - "cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Local reliability with w severity function: analyse\n", - "\n", - "Evaluate local reliability for 3 uncertain parameters (fimp_14, psepbqarmax and triang). This uses the $w$ worst-violated inequality constraint severity metric." - ] - }, - { - "cell_type": "code", - "execution_count": 1, - "metadata": {}, - "outputs": [], - "source": [ - "import matplotlib.pyplot as plt\n", - "import seaborn as sns\n", - "import numpy as np\n", - "import pandas as pd\n", - "from infeas import analyse\n", - "import easyvvuq as uq" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "Reading in campaign database.\n" - ] - } - ], - "source": [ - "campaign_names = [\n", - " \"3p_lt_ineqs_6_evals_sol\", # 3 params, unc params expanded to include solution, w severity\n", - "]\n", - "\n", - "# 3p: triang, psepbqarmax, fimp_14\n", - "\n", - "# Campaign name bug: string pattern must match unique campaign\n", - "campaigns = {}\n", - "for campaign_name in campaign_names:\n", - " campaigns[campaign_name] = analyse.get_campaign(campaign_name)" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Peek at samples from one campaign: check out a responses." - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "
\n", - "\n", - "\n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - " \n", - "
w
count150.000000
mean0.314479
std0.028458
min0.267040
25%0.290137
50%0.313580
75%0.339075
max0.372670
\n", - "
" - ], - "text/plain": [ - " w\n", - "count 150.000000\n", - "mean 0.314479\n", - "std 0.028458\n", - "min 0.267040\n", - "25% 0.290137\n", - "50% 0.313580\n", - "75% 0.339075\n", - "max 0.372670" - ] - }, - "execution_count": 3, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "qois = [\n", - " \"w\",\n", - "]\n", - "samples = analyse.get_samples(campaigns[\"3p_lt_ineqs_6_evals_sol\"])\n", - "samples[qois].describe()" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "### Distribution of violated constraint residuals" - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": {}, - "outputs": [], - "source": [ - "response_series = []\n", - "for campaign_name in campaigns:\n", - " # TODO How are these different?\n", - " # samples = campaign.get_collation_result()\n", - " # samples = campaign.analyse(qoi_cols=qois)\n", - "\n", - " results = campaigns[campaign_name].analyse(qoi_cols=qois)\n", - " results.samples.columns = results.samples.columns.droplevel(1)\n", - " samples = results.samples[\"w\"]\n", - " # Response series for one campaign\n", - " samples = samples.rename(campaign_name)\n", - " response_series.append(samples)\n", - "\n", - "# Concatenate list of response series into single df\n", - "campaigns_responses = pd.concat(response_series, axis=1)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## w result\n", - "\n", - "3 uncertain params, unc params extended to include solution point, w as severity metric." - ] - }, - { - "cell_type": "code", - "execution_count": 8, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "Text(0, 0.5, 'CDF')" - ] - }, - "execution_count": 8, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": "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", - "text/plain": [ - "
" - ] - }, - "metadata": {}, - "output_type": "display_data" - } - ], - "source": [ - "fig, ax = plt.subplots()\n", - "sns.ecdfplot(data=campaigns_responses[\"3p_lt_ineqs_6_evals_sol\"], ax=ax)\n", - "ax.set_title(\"LT reliability analysis: 3 uncertain parameters\")\n", - "ax.set_xlabel(\"$w$, most-violated inequality constraint residual\")\n", - "ax.set_ylabel(\"CDF\")\n", - "# ax.set_xlim(0.0)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "As\n", - "$$R = F_s(0\\mid\\theta),$$\n", - "Reliability $R = 0$ for this solution point under uncertainty. There is no sample point where $s = 0$; no samples are feasible. This is probably due to the solution point itself not being feasible: 1 constraint is violated in the once-through run." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Fancy w plot" - ] - }, - { - "cell_type": "code", - "execution_count": 11, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "Text(0.004, 0.025, 'Reliability R = 0.0')" - ] - }, - "execution_count": 11, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": "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", - "text/plain": [ - "
" - ] - }, - "metadata": {}, - "output_type": "display_data" - } - ], - "source": [ - "fig, ax = plt.subplots()\n", - "sns.ecdfplot(data=campaigns_responses[\"3p_lt_ineqs_6_evals_sol\"], ax=ax)\n", - "ax.set_title(\"Large tokamak reliability analysis: 3 uncertain parameters\")\n", - "ax.set_xlabel(\"$w$, most-violated inequality constraint residual\")\n", - "ax.set_ylabel(\"CDF\")\n", - "\n", - "# Intersection lines\n", - "x, y = ax.lines[0].get_data()\n", - "thresh = 0.0\n", - "# Find index of sign-change around threshold\n", - "thresh_idx = np.nonzero(np.diff(np.sign(x - thresh)))[0]\n", - "y_val = y[thresh_idx[0]]\n", - "ax.axhline(y_val, color=\"grey\", linestyle=\"dashed\")\n", - "ax.axvline(0.0, color=\"grey\", linestyle=\"dashed\")\n", - "\n", - "# Annotation positions\n", - "reliable_x = 0.015\n", - "reliable_y_pad = 0.05\n", - "# TODO rel to center?\n", - "ax.annotate(\"Infeasible\", (0.0005, 0.8), color=\"red\")\n", - "ax.annotate(\"Feasible\", (-0.0035, 0.8), color=\"blue\")\n", - "ax.annotate(\n", - " \"Unreliable\",\n", - " (reliable_x, y_val + reliable_y_pad),\n", - " color=\"red\",\n", - " verticalalignment=\"center\",\n", - ")\n", - "ax.annotate(\n", - " \"Reliable\",\n", - " (reliable_x, y_val - reliable_y_pad),\n", - " color=\"blue\",\n", - " verticalalignment=\"center\",\n", - ")\n", - "ax.annotate(\n", - " f\"Reliability R = {y_val:.2}\",\n", - " (0.004, y_val + reliable_y_pad / 2),\n", - " color=\"green\",\n", - " verticalalignment=\"center\",\n", - ")" - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": ".venv", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.10.9" - }, - "orig_nbformat": 4, - "vscode": { - "interpreter": { - "hash": "0d602a62c005a1edaecc467843c8abc40b106c408f7dd3fdae5e868ff234b67e" - } - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} diff --git a/ra/metrics/ra_analysis.ipynb b/ra/metrics/ra_analysis.ipynb index 1f03309..870a3b2 100644 --- a/ra/metrics/ra_analysis.ipynb +++ b/ra/metrics/ra_analysis.ipynb @@ -4,14 +4,14 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "# Local reliability: analyse\n", + "# Local reliability with w severity function: analyse\n", "\n", - "Evaluate local reliability for 3 uncertain parameters (fimp_14, psepbqarmax and triang). The intention is to try out the normalised severity function (relative to the solution severity); is the sample point more or less violated than the solution point?" + "Evaluate local reliability for 3 uncertain parameters (fimp_14, psepbqarmax and triang). This uses the $w$ worst-violated inequality constraint severity metric." ] }, { "cell_type": "code", - "execution_count": 10, + "execution_count": 103, "metadata": {}, "outputs": [], "source": [ @@ -19,13 +19,12 @@ "import seaborn as sns\n", "import numpy as np\n", "import pandas as pd\n", - "from infeas import analyse\n", - "import easyvvuq as uq" + "from infeas import analyse" ] }, { "cell_type": "code", - "execution_count": 11, + "execution_count": 104, "metadata": {}, "outputs": [ { @@ -39,14 +38,14 @@ ], "source": [ "campaign_names = [\n", - " \"3p_infeas_sol_no_norm\", # 3 params, infeasable solution, no severity normalisation, unc params expanded to include solution\n", - " \"3p_infeas_sol_norm\", # Same, but but solution severity normalisation\n", + " \"lt_3p_before_conv_crit_mod\", # with ra mods, but without conv crit mod\n", + " \"lt_3p_after_ra_mods\", # with ra mods, with feasible conv crit mod\n", "]\n", "\n", - "# 1p: triang\n", - "# 2p: triang, psepbqarmax\n", "# 3p: triang, psepbqarmax, fimp_14\n", "\n", + "qois = [\"w\"]\n", + "\n", "# Campaign name bug: string pattern must match unique campaign\n", "campaigns = {}\n", "for campaign_name in campaign_names:\n", @@ -63,7 +62,25 @@ }, { "cell_type": "code", - "execution_count": 12, + "execution_count": 105, + "metadata": {}, + "outputs": [], + "source": [ + "# samples = analyse.get_samples(campaigns[\"lt_3p_feas\"])\n", + "# samples[qois].describe()" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Distribution of violated constraint residuals" + ] + }, + { + "cell_type": "code", + "execution_count": 106, "metadata": {}, "outputs": [ { @@ -87,84 +104,93 @@ " \n", " \n", " \n", - " rms_vio_constr_res\n", + " Original convergence criterion\n", + " Feasible convergence criterion\n", " \n", " \n", " \n", " \n", - " count\n", - " 150.000000\n", + " 0\n", + " 0.057203\n", + " 0.058435\n", + " \n", + " \n", + " 1\n", + " 0.024930\n", + " 0.062459\n", + " \n", + " \n", + " 2\n", + " 0.044947\n", + " 0.058435\n", + " \n", + " \n", + " 3\n", + " 0.084324\n", + " 0.064453\n", " \n", " \n", - " mean\n", - " 0.069566\n", + " 4\n", + " 0.044554\n", + " 0.068452\n", " \n", " \n", - " std\n", - " 0.005863\n", + " ...\n", + " ...\n", + " ...\n", " \n", " \n", - " min\n", - " 0.058832\n", + " 145\n", + " 0.038397\n", + " 0.035472\n", " \n", " \n", - " 25%\n", - " 0.065395\n", + " 146\n", + " 0.038397\n", + " 0.034071\n", " \n", " \n", - " 50%\n", - " 0.068698\n", + " 147\n", + " 0.038397\n", + " 0.035472\n", " \n", " \n", - " 75%\n", - " 0.073704\n", + " 148\n", + " 0.025731\n", + " 0.028744\n", " \n", " \n", - " max\n", - " 0.083282\n", + " 149\n", + " 0.030651\n", + " 0.028744\n", " \n", " \n", "\n", + "

150 rows × 2 columns

\n", "" ], "text/plain": [ - " rms_vio_constr_res\n", - "count 150.000000\n", - "mean 0.069566\n", - "std 0.005863\n", - "min 0.058832\n", - "25% 0.065395\n", - "50% 0.068698\n", - "75% 0.073704\n", - "max 0.083282" + " Original convergence criterion Feasible convergence criterion\n", + "0 0.057203 0.058435\n", + "1 0.024930 0.062459\n", + "2 0.044947 0.058435\n", + "3 0.084324 0.064453\n", + "4 0.044554 0.068452\n", + ".. ... ...\n", + "145 0.038397 0.035472\n", + "146 0.038397 0.034071\n", + "147 0.038397 0.035472\n", + "148 0.025731 0.028744\n", + "149 0.030651 0.028744\n", + "\n", + "[150 rows x 2 columns]" ] }, - "execution_count": 12, + "execution_count": 106, "metadata": {}, "output_type": "execute_result" } ], - "source": [ - "qois = [\n", - " \"rms_vio_constr_res\",\n", - "]\n", - "samples = analyse.get_samples(campaigns[\"3p_infeas_sol_no_norm\"])\n", - "samples[qois].describe()" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "### Distribution of violated constraint residuals" - ] - }, - { - "cell_type": "code", - "execution_count": 13, - "metadata": {}, - "outputs": [], "source": [ "response_series = []\n", "for campaign_name in campaigns:\n", @@ -174,27 +200,37 @@ "\n", " results = campaigns[campaign_name].analyse(qoi_cols=qois)\n", " results.samples.columns = results.samples.columns.droplevel(1)\n", - " samples = results.samples[\"rms_vio_constr_res\"]\n", + " samples = results.samples[\"w\"]\n", " # Response series for one campaign\n", " samples = samples.rename(campaign_name)\n", " response_series.append(samples)\n", "\n", "# Concatenate list of response series into single df\n", - "campaigns_responses = pd.concat(response_series, axis=1)" + "campaigns_responses = pd.concat(response_series, axis=1)\n", + "\n", + "# Rename columns that will become legend labels (easier and less error-prone if done in df)\n", + "label_mapper = {\n", + " \"lt_3p_before_conv_crit_mod\": \"Original convergence criterion\",\n", + " \"lt_3p_after_ra_mods\": \"Feasible convergence criterion\",\n", + "}\n", + "campaigns_responses_labelled = campaigns_responses.rename(\n", + " mapper=label_mapper, axis=\"columns\"\n", + ")\n", + "campaigns_responses_labelled" ] }, { "cell_type": "markdown", "metadata": {}, "source": [ - "## Preliminary result\n", + "## w result\n", "\n", - "3 uncertain params, no normalisation of severity function, unc params extended to include solution point." + "3 uncertain params, unc params extended to include solution point, w as severity metric." ] }, { "cell_type": "code", - "execution_count": 14, + "execution_count": 107, "metadata": {}, "outputs": [ { @@ -203,13 +239,13 @@ "Text(0, 0.5, 'CDF')" ] }, - "execution_count": 14, + "execution_count": 107, "metadata": {}, "output_type": "execute_result" }, { "data": { - "image/png": "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", + "image/png": "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", "text/plain": [ "
" ] @@ -220,13 +256,10 @@ ], "source": [ "fig, ax = plt.subplots()\n", - "sns.ecdfplot(data=campaigns_responses[\"3p_infeas_sol_no_norm\"], ax=ax)\n", - "ax.set_title(\"Large tokamak reliability analysis: 3 uncertain parameters\")\n", - "ax.set_xlabel(\n", - " \"Requirement violation severity $s$: RMS of violated\\ninequality constraint residuals\"\n", - ")\n", - "ax.set_ylabel(\"CDF\")\n", - "# ax.set_xlim(0.0)" + "sns.ecdfplot(data=campaigns_responses_labelled, ax=ax)\n", + "ax.set_title(\"LT reliability analysis: 3 uncertain parameters\")\n", + "ax.set_xlabel(\"$w$, most-violated inequality constraint residual\")\n", + "ax.set_ylabel(\"CDF\")" ] }, { @@ -235,36 +268,34 @@ "source": [ "As\n", "$$R = F_s(0\\mid\\theta),$$\n", - "Reliability $R = 0$ for this solution point under uncertainty. There is no sample point where $s = 0$; no samples are feasible. This is probably due to the solution point itself not being feasible: $s = 0.0604$ for the solution." + "Reliability $R > 0$ for the solution point under uncertainty when the feasible convergence criterion modifications are applied. There are samples point where $s \\leq 0$; some samples are feasible. This is due to the solution point itself now being feasible in the modified convergence criterion case." ] }, { "cell_type": "markdown", "metadata": {}, "source": [ - "## Normalised severity\n", - "\n", - "Try normalising the severity by subtracting the severity of the solution." + "## $w$ plot with $R$ annotation" ] }, { "cell_type": "code", - "execution_count": 33, + "execution_count": 129, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "Text(0.004, 0.13166666666666668, 'Reliability R = 0.11')" + "Text(0.01761192075216762, 0.05333333333333333, 'Reliability R = 0.033')" ] }, - "execution_count": 33, + "execution_count": 129, "metadata": {}, "output_type": "execute_result" }, { "data": { - "image/png": "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", + "image/png": "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", "text/plain": [ "
" ] @@ -275,11 +306,9 @@ ], "source": [ "fig, ax = plt.subplots()\n", - "sns.ecdfplot(data=campaigns_responses[\"3p_infeas_sol_norm\"], ax=ax)\n", + "sns.ecdfplot(data=campaigns_responses_labelled, ax=ax)\n", "ax.set_title(\"Large tokamak reliability analysis: 3 uncertain parameters\")\n", - "ax.set_xlabel(\n", - " \"Requirement violation severity $s$: solution-normalised RMS of violated\\ninequality constraint residuals\"\n", - ")\n", + "ax.set_xlabel(\"$w$, most-violated inequality constraint residual\")\n", "ax.set_ylabel(\"CDF\")\n", "\n", "# Intersection lines\n", @@ -292,39 +321,37 @@ "ax.axvline(0.0, color=\"grey\", linestyle=\"dashed\")\n", "\n", "# Annotation positions\n", - "reliable_x = 0.015\n", - "reliable_y_pad = 0.05\n", - "# TODO rel to center?\n", - "ax.annotate(\"Infeasible\", (0.0005, 0.8), color=\"red\")\n", - "ax.annotate(\"Feasible\", (-0.0035, 0.8), color=\"blue\")\n", + "reliable_x = 0.75 * np.max(campaigns_responses_labelled)\n", + "reliable_y_pad = 0.04\n", + "feas_y = 0.7\n", + "feas_x_pad = 0.02 * np.max(campaigns_responses_labelled)\n", + "reliability_x_pad = 0.2 * np.max(campaigns_responses_labelled)\n", + "ax.annotate(\"Infeasible\", xy=(0.0, feas_y), xytext=(feas_x_pad, feas_y), color=\"red\")\n", + "ax.annotate(\n", + " \"Feasible\", xy=(0.0, feas_y), xytext=(-feas_x_pad, feas_y), ha=\"right\", color=\"blue\"\n", + ")\n", "ax.annotate(\n", " \"Unreliable\",\n", " (reliable_x, y_val + reliable_y_pad),\n", " color=\"red\",\n", " verticalalignment=\"center\",\n", + " annotation_clip=False,\n", ")\n", "ax.annotate(\n", " \"Reliable\",\n", " (reliable_x, y_val - reliable_y_pad),\n", " color=\"blue\",\n", " verticalalignment=\"center\",\n", + " annotation_clip=False,\n", ")\n", "ax.annotate(\n", " f\"Reliability R = {y_val:.2}\",\n", - " (0.004, y_val + reliable_y_pad / 2),\n", + " (reliability_x_pad, y_val + reliable_y_pad / 2),\n", " color=\"green\",\n", " verticalalignment=\"center\",\n", + " annotation_clip=False,\n", ")" ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "This gives $R > 0$ for the solution point under uncertainty: 0.033 of the samples were more feasible than the solution point.\n", - "\n", - "However, this normalisation of $s$ is unsatisfactory: it should be the case that $s_{soln} \\leq 0$ (i.e. solver and severity metric agree that solution is feasible). This would remove the need for this normalisation." - ] } ], "metadata": { diff --git a/ra/metrics/ra_eval.ipynb b/ra/metrics/ra_eval.ipynb index c3fbcbf..584135f 100644 --- a/ra/metrics/ra_eval.ipynb +++ b/ra/metrics/ra_eval.ipynb @@ -1,10219 +1,10333 @@ { - "cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Local reliability: evaluate\n", - "\n", - "Evaluate local reliability for 3 uncertain parameters (fimp_14, psepbqarmax and triang). The intention is to try out the normalised severity function (relative to the solution severity); is the sample point more or less violated than the solution point?" - ] - }, - { - "cell_type": "code", - "execution_count": 1, - "metadata": {}, - "outputs": [], - "source": [ - "import easyvvuq as uq\n", - "import chaospy as cp\n", - "from pathlib import Path\n", - "from infeas.decoder import MfileDecoder" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [], - "source": [ - "# Define campaign\n", - "WORK_DIR = \"campaigns\"\n", - "Path(\"campaigns\").mkdir(exist_ok=True)\n", - "campaign = uq.Campaign(name=\"3p_lt_ineqs_6_evals_sol\", work_dir=WORK_DIR)\n", - "\n", - "# Define parameter space\n", - "# Uncertainties from Alex's SA paper\n", - "\n", - "params = {\n", - " # Default values are at solution point\n", - " \"fimp_14\": {\n", - " \"type\": \"float\",\n", - " # TODO\n", - " \"min\": 5.0e-6,\n", - " \"max\": 1.0e-4,\n", - " \"default\": 5.0e-6,\n", - " }, # ok\n", - " \"psepbqarmax\": {\"type\": \"float\", \"min\": 8.7, \"max\": 10.0, \"default\": 10.0}, # ok\n", - " \"triang\": {\"type\": \"float\", \"min\": 0.4, \"max\": 0.6, \"default\": 0.5}, # ok\n", - "}\n", - "\n", - "# QoIs\n", - "# Worst violated ineq constraint\n", - "qois = [\n", - " \"w\",\n", - "]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Next, define a custom decoder to handle Process's mfile output." - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": {}, - "outputs": [], - "source": [ - "# Create encoder and decoder\n", - "encoder = uq.encoders.GenericEncoder(\n", - " template_fname=\"large_tokamak_sol_IN_DAT.template\", target_filename=\"IN.DAT\"\n", - ")\n", - "\n", - "decoder = MfileDecoder(target_filename=\"MFILE.DAT\", output_columns=qois)\n", - "\n", - "cmd = \"process -i IN.DAT\"\n", - "actions = uq.actions.local_execute(encoder, cmd, decoder)\n", - "\n", - "# Add the app\n", - "campaign.add_app(name=\"feasibility\", params=params, actions=actions)" - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": {}, - "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - " 0%| | 0/150 [00:00_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816E-03 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3727E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 - # Final Feasible Point # - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1142E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2671E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2671E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0714E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9679E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7418E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5585E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1870E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0488E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7665E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0054E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4545E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6919E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3108E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5707E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9182E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6313E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3017E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP - Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.2027E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2608E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4198E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0160E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4213E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6303E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2567E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3034E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8683E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0415E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6562E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3607E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3779E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9828E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1464E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7836E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5639E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5569E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9723E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7771E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6731E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7710E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9545E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5346E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6731E+01 OP - L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6842E+01 OP - L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6842E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5799E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3057E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8530E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7959E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2252E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5104E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2252E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1228E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9525E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6811E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6861E-01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1400E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350E+04 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2252E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997E-03 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5569E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5114E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9232E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7948E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2682E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5989E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1620E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6479E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5703E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1882E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9567E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8496E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2514E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8496E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5556E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0667E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5116E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0535E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7927E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8654E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4807E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4936E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7857E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7857E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7765E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1280E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8557E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5724E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5724E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2773E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6530E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6862E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7765E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7765E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6845E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3635E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5724E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5724E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1383E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1383E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1460E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4415E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6303E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4226E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4999E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3623E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1350E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9186E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1933E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1602E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8866E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1602E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4957E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3055E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5114E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8056E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690E-02 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1758E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5569E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1829E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0939E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1464E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5569E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5569E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1464E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4297E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4490E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.1829E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5114E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2357E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.7314E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9406E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9413E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8683E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8309E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 -************************************************************************* -***** ***** -***** Generic large tokamak file ***** -***** James Morris, UKAEA ***** -***** 28/06/23 ***** -***** ***** -************************************************************************* - -* Run Information * -******************* - -runtitle = Generic large tokamak - -* Figure of merit - minimise major radius -minmax = 1 - -* Error tolerance for VMCON -epsvmc = 1e-7 - -* Constraint Equations - Consistency Equations * -************************************************ - -* Beta consistency * -*------------------* -icc = 1 -ixc = 5 * beta -beta = 0.03 - -* Global power balance * -*----------------------* -icc = 2 - -* Radial build consistency * -*--------------------------* -icc = 11 - -* Constraint Equations - Limit Equations * -****************************************** - -* Density upper limit * -*---------------------* -icc = 5 -ixc = 6 * dene [m-3] -fdene = 1.2 -dene = 7.5E19 - -* Neutron wall load upper limit * -*-------------------------------* -icc = 8 -fwalld = 1.0 -* wall load limit [MW/m2] -walalw = 2.0 - -* Fusion power upper limit * -*--------------------------* - -icc = 9 -* Maximum allowable value fusion power [MW] -powfmax = 3000 - -* Burn time lower limit * -*-----------------------* -icc = 13 -* minimum burn time [s] -tbrnmn = 7200.0 - -* L-H threshold scaling * -*-----------------------* -icc = 15 -boundu(103) = 10.0 - -* Injection power upper limit * -*-----------------------------* -icc = 30 -* Maximum allowable value for injected power [MW] -pinjalw = 200.0 - -* Net electric power lower limit * -*--------------------------------* -icc = 16 -* Minimum allowable value for net eletric power [MW] -pnetelin = 400.0 - -* Beta upper limit * -*------------------* -icc = 24 -fbetatry = 0.5 - -* Max TF field * -*--------------* -icc = 25 -* Maximum allowable value for toroidal magnetic field [T] -bmxlim = 14.0 - -* Central solenoid EOF current density upper limit * -*--------------------------------------------------* -icc = 26 -ixc = 37 * coheof [A/m2] -boundu(38) = 1.0 -coheof = 1.5E7 -fjohc = 0.6 - -* Central solenoid BOP current density upper limit * -*--------------------------------------------------* -icc = 27 -ixc = 41 * fcohbop -boundu(39) = 1.0 -fjohc0 = 0.6 -fcohbop = 0.9 - -* I_op/I_Crit TF coil limit * -*---------------------------* -icc = 33 -boundu(50) = 1.0 -fiooic = 0.65 - -* Dump voltage upper limit * -*--------------------------* -icc = 34 -fvdump = 1.0 -vdalw = 10.0 - -* J_winding pack protection * -*---------------------------* -icc = 35 -fjprot = 1.0 - -* TF temp marg lower limit * -*--------------------------* -icc = 36 -* Minimum allowable temperature margin [K] -tmargmin = 1.5 - -* CS coil temp margin lower limit * -*---------------------------------* -icc = 60 -tmargmin_cs = 1.5 - -* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * -*-------------------------------------------------------------------------------* -icc = 62 -taulimit = 5.0 - -* dump time constraint for VV stresses * -*--------------------------------------* -icc = 65 -fmaxvvstress = 1.0 - -* CS stress limit * -*-----------------* -icc = 72 -foh_stress = 1.0 -* allowable hoop stress in Central Solenoid structural material [Pa] -alstroh = 7.5D8 - -* neped0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00059776 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT b/solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT deleted file mode 100644 index 8cce6e0..0000000 --- a/solution_points/large_tokamak/lt_ineqs_10_evals_sol_MFILE.DAT +++ /dev/null @@ -1,1488 +0,0 @@ - # PROCESS # - # Power Reactor Optimisation Code # - # PROCESS # - # Power Reactor Optimisation Code # - PROCESS_version_number__________________________________________________ (procver)_____________________ "3.1.0 R" - Date_of_run_____________________________________________________________ (date)________________________ "03/04/2024" - Time_of_run_____________________________________________________________ (time)________________________ "14:39" - User____________________________________________________________________ (username)____________________ "jon" - PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak - PROCESS_tag_number______________________________________________________ (tagno)_______________________ "" - PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "six-model-evals" - PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Merge branch |ukaea:main| into six-model-evals" - Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_10_evals_sol_IN.DAT " - Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 - Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 - # Final UNFEASIBLE Point # - # Numerics # - Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 - Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ -2.9327E-05 - Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ -3.2800E-05 - Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ -4.4154E-06 - Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 1.3943E-03 - Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ 9.5801E-01 - Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ 8.4028E-01 - Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 1.2618E-02 - L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 4.2362E-01 - Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 1.6464E+00 - Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ 3.2710E-02 - Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 2.1518E-02 - Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ 1.4433E-01 - CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 6.1085E-02 - CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.4919E-01 - I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ 1.5277E-03 - Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ 7.7153E-04 - J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ 3.2083E-03 - TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ 2.3300E-01 - CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.7346E-02 - taup/taueff_____________________________________________________________ (ineq_con062)_________________ 5.8857E-03 - Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ 1.2723E+00 - CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 2.0721E-03 - ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.8676E-03 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3721E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1188E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3222E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9380E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1140E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2672E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2672E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9676E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7680E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7416E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6954E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1867E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7911E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7911E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8155E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3959E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0051E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1188E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3222E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1188E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5569E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3849E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5015E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5015E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6964E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2606E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4196E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4211E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6282E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9399E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2565E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2604E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4431E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4076E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7968E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6564E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6282E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0214E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3604E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9826E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1466E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2165E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4246E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5574E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6802E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1002E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9714E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730E+01 OP - L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.6842E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0517E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0517E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0517E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3792E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9076E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9885E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7968E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5348E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2250E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3704E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2250E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8199E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1230E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9523E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6808E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8109E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.7385E-01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1397E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7603E+04 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2250E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.7154E-03 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5574E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5115E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2909E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9227E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7949E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3842E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5990E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0572E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6619E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8592E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2932E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9923E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4852E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0659E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0620E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4901E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5553E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8399E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4029E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5112E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7923E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6796E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4640E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1248E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4845E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5720E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4845E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5410E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6531E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4029E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6860E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6855E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3633E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1806E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1806E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1381E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1381E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4413E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6721E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5460E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6416E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9923E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3623E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1596E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3815E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3815E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8863E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3815E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1596E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5947E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3052E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9082E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0051E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5115E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8058E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2691E-02 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8884E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1753E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9722E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9082E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0185E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4807E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5574E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1827E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9883E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7968E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8680E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0937E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2604E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1466E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5574E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8682E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5574E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1466E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.1827E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8364E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4487E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5460E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1308E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5115E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9082E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2358E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7309E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.7309E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7309E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9405E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1308E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3096E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9412E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1288E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5340E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2687E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5679E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8681E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Once through only: no optimisation -ioptimz = -2 -* Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 - -*--------------------------------------------------* - - -*---------------Constraint Equations---------------* - -icc = 1 * Beta -icc = 2 * Global power balance -icc = 11 * Radial build -icc = 5 * Density upper limit -icc = 8 * Neutron wall load upper limit -icc = 9 * Fusion power upper limit -icc = 13 * Burn time lower limit -icc = 15 * LH power threshold limit -icc = 30 * Injection power upper limit -icc = 16 * Net electric power lower limit -icc = 24 * Beta upper limit -icc = 25 * Peak toroidal field upper limit -icc = 26 * Central solenoid EOF current density upper limit -icc = 27 * Central solenoid BOP current density upper limit -icc = 33 * I_op -icc = 34 * Dump voltage upper limit -icc = 35 * J_winding pack -icc = 36 * TF coil temperature margin lower limit -icc = 60 * Central solenoid temperature margin lower limit -icc = 62 * taup -icc = 65 * Dump time set by VV loads -icc = 72 * central solenoid shear stress limit -icc = 81 * Ne -icc = 68 * Psep -icc = 31 * TF coil case stress upper limit -icc = 32 * TF coil conduit stress upper limit - -*---------------Iteration Variables----------------* - -ixc = 2 * bt -ixc = 3 * rmajor -boundl(3) = 8.0 -boundu(3) = 9.0 -ixc = 4 * te -boundu(4) = 100.0 -ixc = 5 * beta -ixc = 6 * dene -ixc = 10 * hfact -boundu(10) = 1.2 -ixc = 13 * tfcth -boundl(13) = 0.7 -ixc = 16 * ohcth -boundl(16) = 0.3 -ixc = 18 * q -boundl(18) = 3.0 -ixc = 29 * bore -boundl(29) = 0.1 -ixc = 37 * coheof -ixc = 41 * fcohbop -ixc = 44 * fvsbrnni -ixc = 56 * tdmptf -ixc = 57 * thkcas -ixc = 58 * thwcndut -boundl(58) = 0.008 -ixc = 59 * fcutfsu -boundl(59) = 0.50 -boundu(59) = 0.94 -ixc = 60 * cpttf -boundl(60) = 65000.0 -boundu(60) = 90000.0 -ixc = 109 * ralpne -boundu(109) = 0.1 -ixc = 122 * oh_steel_frac -ixc = 135 * fimp(13) -ixc = 140 * dr_tf_wp -boundl(140) = 0.4 - -*---------------Cs Fatigue Variables---------------* - - -*------------------- Costs 1990--------------------* - - -*------------------- Costs 2015--------------------* - - -*-----------------Blanket Library------------------* - - -*----------------------Build-----------------------* - - -*-----------------Build Variables------------------* - -blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00059776 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT b/solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT deleted file mode 100644 index 5cb3674..0000000 --- a/solution_points/large_tokamak/lt_ineqs_6_evals_IN.DAT +++ /dev/null @@ -1,594 +0,0 @@ -* Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 -************************************************************************* -***** ***** -***** Generic large tokamak file ***** -***** James Morris, UKAEA ***** -***** 28/06/23 ***** -***** ***** -************************************************************************* - -* Run Information * -******************* - -runtitle = Generic large tokamak - -* Figure of merit - minimise major radius -minmax = 1 - -* Error tolerance for VMCON -epsvmc = 1e-7 - -* Constraint Equations - Consistency Equations * -************************************************ - -* Beta consistency * -*------------------* -icc = 1 -ixc = 5 * beta -beta = 0.03 - -* Global power balance * -*----------------------* -icc = 2 - -* Radial build consistency * -*--------------------------* -icc = 11 - -* Constraint Equations - Limit Equations * -****************************************** - -* Density upper limit * -*---------------------* -icc = 5 -ixc = 6 * dene [m-3] -fdene = 1.2 -dene = 7.5E19 - -* Neutron wall load upper limit * -*-------------------------------* -icc = 8 -fwalld = 1.0 -* wall load limit [MW/m2] -walalw = 2.0 - -* Fusion power upper limit * -*--------------------------* - -icc = 9 -* Maximum allowable value fusion power [MW] -powfmax = 3000 - -* Burn time lower limit * -*-----------------------* -icc = 13 -* minimum burn time [s] -tbrnmn = 7200.0 - -* L-H threshold scaling * -*-----------------------* -icc = 15 -boundu(103) = 10.0 - -* Injection power upper limit * -*-----------------------------* -icc = 30 -* Maximum allowable value for injected power [MW] -pinjalw = 200.0 - -* Net electric power lower limit * -*--------------------------------* -icc = 16 -* Minimum allowable value for net eletric power [MW] -pnetelin = 400.0 - -* Beta upper limit * -*------------------* -icc = 24 -fbetatry = 0.5 - -* Max TF field * -*--------------* -icc = 25 -* Maximum allowable value for toroidal magnetic field [T] -bmxlim = 14.0 - -* Central solenoid EOF current density upper limit * -*--------------------------------------------------* -icc = 26 -ixc = 37 * coheof [A/m2] -boundu(38) = 1.0 -coheof = 1.5E7 -fjohc = 0.6 - -* Central solenoid BOP current density upper limit * -*--------------------------------------------------* -icc = 27 -ixc = 41 * fcohbop -boundu(39) = 1.0 -fjohc0 = 0.6 -fcohbop = 0.9 - -* I_op/I_Crit TF coil limit * -*---------------------------* -icc = 33 -boundu(50) = 1.0 -fiooic = 0.65 - -* Dump voltage upper limit * -*--------------------------* -icc = 34 -fvdump = 1.0 -vdalw = 10.0 - -* J_winding pack protection * -*---------------------------* -icc = 35 -fjprot = 1.0 - -* TF temp marg lower limit * -*--------------------------* -icc = 36 -* Minimum allowable temperature margin [K] -tmargmin = 1.5 - -* CS coil temp margin lower limit * -*---------------------------------* -icc = 60 -tmargmin_cs = 1.5 - -* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * -*-------------------------------------------------------------------------------* -icc = 62 -taulimit = 5.0 - -* dump time constraint for VV stresses * -*--------------------------------------* -icc = 65 -fmaxvvstress = 1.0 - -* CS stress limit * -*-----------------* -icc = 72 -foh_stress = 1.0 -* allowable hoop stress in Central Solenoid structural material [Pa] -alstroh = 7.5D8 - -* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816E-03 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3727E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 - # Final Feasible Point # - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1142E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2671E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2671E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0714E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9679E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7418E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5585E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1870E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0488E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7665E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0054E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4545E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6919E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3108E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5707E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9182E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6313E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3017E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP - Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.2027E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2608E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4198E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0160E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4213E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6303E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2567E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3034E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8683E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0415E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6562E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3607E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3779E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9828E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1464E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7836E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5639E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5569E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9723E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7771E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6731E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7710E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9545E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5346E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6731E+01 OP - L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6842E+01 OP - L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6842E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5799E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3057E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8530E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7959E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2252E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5104E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2252E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1228E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9525E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6811E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6861E-01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1400E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350E+04 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2252E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997E-03 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5569E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5114E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9232E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7948E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2682E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5989E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1620E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6479E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5703E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1882E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9567E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8496E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2514E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8496E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5556E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0667E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5116E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0535E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7927E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8654E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4807E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4936E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7857E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7857E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7765E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1280E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8557E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5724E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5724E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2773E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6530E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6862E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7765E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7765E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6845E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3635E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5724E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5724E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1383E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1383E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1460E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4415E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6303E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4226E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4999E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3623E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1350E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9186E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1933E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1602E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8866E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1602E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4957E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3055E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5114E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8056E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690E-02 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1758E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5569E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1829E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0939E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1464E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5569E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8683E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5569E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1464E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4297E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4490E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.1829E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5114E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2357E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.7314E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6303E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9406E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9413E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8683E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8309E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 -************************************************************************* -***** ***** -***** Generic large tokamak file ***** -***** James Morris, UKAEA ***** -***** 28/06/23 ***** -***** ***** -************************************************************************* - -* Run Information * -******************* - -runtitle = Generic large tokamak - -* Figure of merit - minimise major radius -minmax = 1 - -* Error tolerance for VMCON -epsvmc = 1e-7 - -* Constraint Equations - Consistency Equations * -************************************************ - -* Beta consistency * -*------------------* -icc = 1 -ixc = 5 * beta -beta = 0.03 - -* Global power balance * -*----------------------* -icc = 2 - -* Radial build consistency * -*--------------------------* -icc = 11 - -* Constraint Equations - Limit Equations * -****************************************** - -* Density upper limit * -*---------------------* -icc = 5 -ixc = 6 * dene [m-3] -fdene = 1.2 -dene = 7.5E19 - -* Neutron wall load upper limit * -*-------------------------------* -icc = 8 -fwalld = 1.0 -* wall load limit [MW/m2] -walalw = 2.0 - -* Fusion power upper limit * -*--------------------------* - -icc = 9 -* Maximum allowable value fusion power [MW] -powfmax = 3000 - -* Burn time lower limit * -*-----------------------* -icc = 13 -* minimum burn time [s] -tbrnmn = 7200.0 - -* L-H threshold scaling * -*-----------------------* -icc = 15 -boundu(103) = 10.0 - -* Injection power upper limit * -*-----------------------------* -icc = 30 -* Maximum allowable value for injected power [MW] -pinjalw = 200.0 - -* Net electric power lower limit * -*--------------------------------* -icc = 16 -* Minimum allowable value for net eletric power [MW] -pnetelin = 400.0 - -* Beta upper limit * -*------------------* -icc = 24 -fbetatry = 0.5 - -* Max TF field * -*--------------* -icc = 25 -* Maximum allowable value for toroidal magnetic field [T] -bmxlim = 14.0 - -* Central solenoid EOF current density upper limit * -*--------------------------------------------------* -icc = 26 -ixc = 37 * coheof [A/m2] -boundu(38) = 1.0 -coheof = 1.5E7 -fjohc = 0.6 - -* Central solenoid BOP current density upper limit * -*--------------------------------------------------* -icc = 27 -ixc = 41 * fcohbop -boundu(39) = 1.0 -fjohc0 = 0.6 -fcohbop = 0.9 - -* I_op/I_Crit TF coil limit * -*---------------------------* -icc = 33 -boundu(50) = 1.0 -fiooic = 0.65 - -* Dump voltage upper limit * -*--------------------------* -icc = 34 -fvdump = 1.0 -vdalw = 10.0 - -* J_winding pack protection * -*---------------------------* -icc = 35 -fjprot = 1.0 - -* TF temp marg lower limit * -*--------------------------* -icc = 36 -* Minimum allowable temperature margin [K] -tmargmin = 1.5 - -* CS coil temp margin lower limit * -*---------------------------------* -icc = 60 -tmargmin_cs = 1.5 - -* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * -*-------------------------------------------------------------------------------* -icc = 62 -taulimit = 5.0 - -* dump time constraint for VV stresses * -*--------------------------------------* -icc = 65 -fmaxvvstress = 1.0 - -* CS stress limit * -*-----------------* -icc = 72 -foh_stress = 1.0 -* allowable hoop stress in Central Solenoid structural material [Pa] -alstroh = 7.5D8 - -* neped0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00059776 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT b/solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT deleted file mode 100644 index 4098a82..0000000 --- a/solution_points/large_tokamak/lt_ineqs_6_evals_sol_MFILE.DAT +++ /dev/null @@ -1,1488 +0,0 @@ - # PROCESS # - # Power Reactor Optimisation Code # - # PROCESS # - # Power Reactor Optimisation Code # - PROCESS_version_number__________________________________________________ (procver)_____________________ "3.1.0 R" - Date_of_run_____________________________________________________________ (date)________________________ "03/04/2024" - Time_of_run_____________________________________________________________ (time)________________________ "13:48" - User____________________________________________________________________ (username)____________________ "jon" - PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak - PROCESS_tag_number______________________________________________________ (tagno)_______________________ "" - PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "six-model-evals" - PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Merge branch |ukaea:main| into six-model-evals" - Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_6_evals_sol_IN.DAT " - Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 - Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 - # Final UNFEASIBLE Point # - # Numerics # - Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 - Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ -2.9327E-05 - Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ -3.2800E-05 - Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ -4.4154E-06 - Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 1.3943E-03 - Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ 9.5801E-01 - Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ 8.4028E-01 - Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 1.2618E-02 - L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 4.2362E-01 - Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 1.6464E+00 - Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ 3.2710E-02 - Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 2.1518E-02 - Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ 1.4433E-01 - CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 6.1085E-02 - CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.4919E-01 - I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ 1.5277E-03 - Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ 7.7153E-04 - J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ 3.2083E-03 - TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ 2.3300E-01 - CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.7346E-02 - taup/taueff_____________________________________________________________ (ineq_con062)_________________ 5.8857E-03 - Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ 1.2723E+00 - CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 2.0721E-03 - ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ 6.7365E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.8676E-03 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3721E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478E-01 - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1188E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3222E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9380E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8212E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7874E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0792E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6419E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1140E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2672E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2672E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9676E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9834E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1528E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835E+01 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7680E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2693E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3516E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7416E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6954E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1867E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7911E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7911E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8155E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9265E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3831E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3959E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0051E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8191E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4342E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1188E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3222E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1188E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5569E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0947E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0947E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3849E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.7919E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8615E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4607E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8472E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7040E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5015E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5015E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0247E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6268E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6964E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0239E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.5017E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.0239E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9776E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.5210E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6014E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2606E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4196E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4211E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6282E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9399E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2565E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2604E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4431E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4076E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7968E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3083E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1880E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6564E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7104E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6282E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0214E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3604E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9826E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1466E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2165E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4246E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5574E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6802E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1002E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9714E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6808E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2178E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6117E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730E+01 OP - L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.6842E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1860E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0517E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0517E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0517E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3792E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9076E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9885E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7968E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5348E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0294E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7282E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9376E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7308E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889E+02 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2250E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3704E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9074E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2250E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8199E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1230E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9523E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4329E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6808E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8109E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.7385E-01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1397E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7603E+04 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2250E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.7154E-03 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2422E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5574E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5115E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2909E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9227E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7949E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2673E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2673E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6037E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1534E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8895E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5224E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3842E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1340E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6279E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4496E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5301E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0775E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5990E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2673E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2673E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7963E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0572E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6619E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7047E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8169E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8592E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1538E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2205E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8807E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8243E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6643E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0619E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6189E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4689E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1509E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5194E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2279E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1116E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1116E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1332E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7973E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2932E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9923E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4852E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2320E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0659E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0620E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2486E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5194E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5463E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4901E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3980E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5553E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8399E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0048E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4029E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5112E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7923E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1444E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4682E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6796E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4640E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1248E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2156E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4845E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5720E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4845E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6287E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5410E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3711E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0605E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0512E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8931E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6087E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8931E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6087E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5215E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5215E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4682E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6531E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8612E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4029E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6860E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6855E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8301E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0512E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3633E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9511E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9511E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1806E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1806E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7401E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1381E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1381E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8612E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2717E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9996E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7970E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4976E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4413E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1509E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6721E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5460E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6416E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7799E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5349E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6037E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5463E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9923E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7973E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9736E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8655E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1839E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9371E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7054E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8944E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8949E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9301E+00 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0329E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9011E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8029E+02 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3623E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1596E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3815E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3815E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8863E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3815E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1596E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5947E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3052E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9837E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1324E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4829E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9082E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0051E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9301E+00 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5115E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4729E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8058E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8597E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2691E-02 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6429E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7158E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1125E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8884E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1753E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9722E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9082E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0185E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4807E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5574E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1844E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1827E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9883E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7968E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8680E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0937E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2604E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1466E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5574E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8682E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5574E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1466E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.1827E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8364E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4487E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5460E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.1828E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1308E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5115E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9082E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9301E+00 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2358E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7309E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.7309E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7309E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1026E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9405E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1308E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3096E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1844E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9412E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1288E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5340E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2687E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5679E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8681E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Once through only: no optimisation -ioptimz = -2 -* Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 - -*--------------------------------------------------* - - -*---------------Constraint Equations---------------* - -icc = 1 * Beta -icc = 2 * Global power balance -icc = 11 * Radial build -icc = 5 * Density upper limit -icc = 8 * Neutron wall load upper limit -icc = 9 * Fusion power upper limit -icc = 13 * Burn time lower limit -icc = 15 * LH power threshold limit -icc = 30 * Injection power upper limit -icc = 16 * Net electric power lower limit -icc = 24 * Beta upper limit -icc = 25 * Peak toroidal field upper limit -icc = 26 * Central solenoid EOF current density upper limit -icc = 27 * Central solenoid BOP current density upper limit -icc = 33 * I_op -icc = 34 * Dump voltage upper limit -icc = 35 * J_winding pack -icc = 36 * TF coil temperature margin lower limit -icc = 60 * Central solenoid temperature margin lower limit -icc = 62 * taup -icc = 65 * Dump time set by VV loads -icc = 72 * central solenoid shear stress limit -icc = 81 * Ne -icc = 68 * Psep -icc = 31 * TF coil case stress upper limit -icc = 32 * TF coil conduit stress upper limit - -*---------------Iteration Variables----------------* - -ixc = 2 * bt -ixc = 3 * rmajor -boundl(3) = 8.0 -boundu(3) = 9.0 -ixc = 4 * te -boundu(4) = 100.0 -ixc = 5 * beta -ixc = 6 * dene -ixc = 10 * hfact -boundu(10) = 1.2 -ixc = 13 * tfcth -boundl(13) = 0.7 -ixc = 16 * ohcth -boundl(16) = 0.3 -ixc = 18 * q -boundl(18) = 3.0 -ixc = 29 * bore -boundl(29) = 0.1 -ixc = 37 * coheof -ixc = 41 * fcohbop -ixc = 44 * fvsbrnni -ixc = 56 * tdmptf -ixc = 57 * thkcas -ixc = 58 * thwcndut -boundl(58) = 0.008 -ixc = 59 * fcutfsu -boundl(59) = 0.50 -boundu(59) = 0.94 -ixc = 60 * cpttf -boundl(60) = 65000.0 -boundu(60) = 90000.0 -ixc = 109 * ralpne -boundu(109) = 0.1 -ixc = 122 * oh_steel_frac -ixc = 135 * fimp(13) -ixc = 140 * dr_tf_wp -boundl(140) = 0.4 - -*---------------Cs Fatigue Variables---------------* - - -*------------------- Costs 1990--------------------* - - -*------------------- Costs 2015--------------------* - - -*-----------------Blanket Library------------------* - - -*----------------------Build-----------------------* - - -*-----------------Build Variables------------------* - -blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0038 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.54682 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00059776 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21444000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.93491 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.48569 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.032304 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.3183 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.7962e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.42422 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.186 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7339 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.060239 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.221 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 85463.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.8232 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.973 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.28169 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.51538 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.0080121 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/lt_ineqs_IN.DAT b/solution_points/large_tokamak/lt_ineqs_IN.DAT deleted file mode 100644 index 5cb3674..0000000 --- a/solution_points/large_tokamak/lt_ineqs_IN.DAT +++ /dev/null @@ -1,594 +0,0 @@ -* Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 -************************************************************************* -***** ***** -***** Generic large tokamak file ***** -***** James Morris, UKAEA ***** -***** 28/06/23 ***** -***** ***** -************************************************************************* - -* Run Information * -******************* - -runtitle = Generic large tokamak - -* Figure of merit - minimise major radius -minmax = 1 - -* Error tolerance for VMCON -epsvmc = 1e-7 - -* Constraint Equations - Consistency Equations * -************************************************ - -* Beta consistency * -*------------------* -icc = 1 -ixc = 5 * beta -beta = 0.03 - -* Global power balance * -*----------------------* -icc = 2 - -* Radial build consistency * -*--------------------------* -icc = 11 - -* Constraint Equations - Limit Equations * -****************************************** - -* Density upper limit * -*---------------------* -icc = 5 -ixc = 6 * dene [m-3] -fdene = 1.2 -dene = 7.5E19 - -* Neutron wall load upper limit * -*-------------------------------* -icc = 8 -fwalld = 1.0 -* wall load limit [MW/m2] -walalw = 2.0 - -* Fusion power upper limit * -*--------------------------* - -icc = 9 -* Maximum allowable value fusion power [MW] -powfmax = 3000 - -* Burn time lower limit * -*-----------------------* -icc = 13 -* minimum burn time [s] -tbrnmn = 7200.0 - -* L-H threshold scaling * -*-----------------------* -icc = 15 -boundu(103) = 10.0 - -* Injection power upper limit * -*-----------------------------* -icc = 30 -* Maximum allowable value for injected power [MW] -pinjalw = 200.0 - -* Net electric power lower limit * -*--------------------------------* -icc = 16 -* Minimum allowable value for net eletric power [MW] -pnetelin = 400.0 - -* Beta upper limit * -*------------------* -icc = 24 -fbetatry = 0.5 - -* Max TF field * -*--------------* -icc = 25 -* Maximum allowable value for toroidal magnetic field [T] -bmxlim = 14.0 - -* Central solenoid EOF current density upper limit * -*--------------------------------------------------* -icc = 26 -ixc = 37 * coheof [A/m2] -boundu(38) = 1.0 -coheof = 1.5E7 -fjohc = 0.6 - -* Central solenoid BOP current density upper limit * -*--------------------------------------------------* -icc = 27 -ixc = 41 * fcohbop -boundu(39) = 1.0 -fjohc0 = 0.6 -fcohbop = 0.9 - -* I_op/I_Crit TF coil limit * -*---------------------------* -icc = 33 -boundu(50) = 1.0 -fiooic = 0.65 - -* Dump voltage upper limit * -*--------------------------* -icc = 34 -fvdump = 1.0 -vdalw = 10.0 - -* J_winding pack protection * -*---------------------------* -icc = 35 -fjprot = 1.0 - -* TF temp marg lower limit * -*--------------------------* -icc = 36 -* Minimum allowable temperature margin [K] -tmargmin = 1.5 - -* CS coil temp margin lower limit * -*---------------------------------* -icc = 60 -tmargmin_cs = 1.5 - -* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * -*-------------------------------------------------------------------------------* -icc = 62 -taulimit = 5.0 - -* dump time constraint for VV stresses * -*--------------------------------------* -icc = 65 -fmaxvvstress = 1.0 - -* CS stress limit * -*-----------------* -icc = 72 -foh_stress = 1.0 -* allowable hoop stress in Central Solenoid structural material [Pa] -alstroh = 7.5D8 - -* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7117E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 1.0914E-02 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 8.7443E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.8045E-01 - # Final Feasible Point # - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0096E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8404E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 5.0886E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5354E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9903E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8925E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7955E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.1217E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4126E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.4195E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.5017E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.5934E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.5081E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4982E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.5210E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6140E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6511E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1753E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.7231E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3739E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7435E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.5992E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.5992E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.5210E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.9057E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.5870E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.0683E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 4.0643E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6180E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1907E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5283E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0223E+02 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.8849E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2683E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3175E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9675E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7070E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5898E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7422E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.3032E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.1045E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.9023E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.9023E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.7050E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0998E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0360E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8226E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9333E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5346E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.4442E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.8004E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 8.2225E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.5394E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.1462E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.1214E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.5215E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.4161E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8414E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4358E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.7986E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4518E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0250E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0096E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8404E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0096E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5214E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6317E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0788E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2528E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4075E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3652E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5146E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.4323E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7147E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0788E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2610E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3274E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3431E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3401E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5352E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.8270E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1507E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8982E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4246E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0112E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4788E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8594E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9314E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7150E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4014E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0845E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2491E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5765E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2491E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5765E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3801E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.8988E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0375E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.7427E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1970E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1128E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5662E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 5.1424E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.3995E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.5120E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3038E+19 OP - Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3038E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.8358E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.3148E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.8358E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 6.4603E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7070E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.6591E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2082E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6519E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2331E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0963E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3748E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 2.8593E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4076E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.5350E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3038E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6598E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6578E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9971E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.3156E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3269E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2969E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 4.0353E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.6023E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.5755E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.5580E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.5841E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.4331E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.3915E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.9266E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.8744E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 6.2416E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6578E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0400E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2875E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3479E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9396E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.0794E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1833E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8167E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4579E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.6190E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 8.6640E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6437E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0547E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8920E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2946E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.8384E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.8263E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1268E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.7116E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.7609E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2797E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.7243E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.8136E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9918E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.6092E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1103E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3254E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2209E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6683E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3986E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.0905E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5731E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.7609E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2797E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.7243E+01 OP - L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.7609E+01 OP - L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.7609E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1880E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0552E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0552E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0552E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.4132E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0144E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 3.0769E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.5841E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.7332E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.6729E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.6875E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3431E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9427E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6559E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5641E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3347E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9210E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7373E+02 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8029E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2280E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5412E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3885E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1646E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0955E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9349E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2280E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.7258E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.2027E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.8964E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4308E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.1893E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.9167E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.4124E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 1.1640E+01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 1.9024E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 5.5262E+05 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.7476E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2280E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 3.3868E-02 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.4333E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.5667E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 8.6640E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.7328E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7546E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8268E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7372E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6317E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.3366E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6317E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9731E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0069E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.8018E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.3446E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3627E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.3446E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6072E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.3691E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1443E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0393E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1527E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8277E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6073E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5339E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4350E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.6046E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7462E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6073E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5317E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3535E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.0502E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5784E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4535E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4854E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0319E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1634E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2719E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -8.0095E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1581E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.3446E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.3446E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7981E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4517E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8542E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.3173E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1044E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.5081E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.5885E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.8324E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.9983E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.7418E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7566E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1774E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.0496E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1902E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0898E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.8415E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1708E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8210E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3471E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4930E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8887E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7287E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.1287E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0000E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6737E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.8338E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8330E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.9369E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.5992E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.9855E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3968E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5418E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.3336E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1734E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2342E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1461E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1461E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2806E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5907E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1574E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2495E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1467E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1467E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.2772E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7415E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.4844E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9833E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4693E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0862E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 6.9114E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2674E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.9950E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5907E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8330E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3853E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9837E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4848E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3971E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5631E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0689E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7994E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0445E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3877E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.6494E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0948E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.8914E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1679E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0069E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.5069E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3195E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0237E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.2959E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.1874E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9223E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.5000E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.4335E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.5000E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.5900E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5326E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8451E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4399E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5576E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4800E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.8423E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.8423E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3788E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2736E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2736E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4610E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7844E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3329E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0613E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3675E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3675E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1425E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0570E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8080E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6741E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1302E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1302E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9159E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6636E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6287E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6741E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1302E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1302E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9159E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6636E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6287E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5219E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0431E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0431E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2938E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1753E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5608E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5219E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0431E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0431E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2938E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1753E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5608E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2749E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.3594E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6106E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8442E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3971E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.4889E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.4305E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6009E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3996E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7844E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7844E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 6.2715E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8297E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0570E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0570E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -1.9386E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9803E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0510E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0510E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6636E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9803E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0510E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0510E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6636E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.0988E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7941E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7941E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1753E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.0988E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7941E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7941E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1753E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7392E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 2.9525E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 2.9525E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8442E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6317E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6317E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6317E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2066E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.3089E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4618E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2852E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 4.0272E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.8910E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.5269E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.5343E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6598E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1734E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.7170E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7229E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2416E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.6430E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6714E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3216E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4483E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5270E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7806E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5360E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6072E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9837E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9833E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.0965E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.9775E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1113E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2422E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9524E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7415E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1264E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4329E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.9491E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.2767E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3945E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7354E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1869E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1961E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1640E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 5.0131E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8959E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1375E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.9283E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0438E+01 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0248E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6531E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6531E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.8783E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.7640E+02 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.0092E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6350E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6350E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 7.3028E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.4072E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.8164E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.8164E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.4782E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.8164E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 7.3028E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.2794E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7345E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.3353E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.8531E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9975E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9567E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3716E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1339E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2375E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4984E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5765E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6602E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9590E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.3392E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0438E+01 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.7328E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.7068E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5574E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4886E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.7512E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9548E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.3033E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.4219E-02 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6602E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7229E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2416E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9391E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.3237E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9803E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9590E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5505E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0648E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6602E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5574E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5467E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 8.6640E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.3146E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2335E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 3.0769E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.5841E+01 - Total_(MW)______________________________________________________________ ______________________________ 4.0353E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1498E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2969E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.0794E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 8.6640E+01 - Total_(MW)______________________________________________________________ ______________________________ 4.0353E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6598E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1590E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 8.6640E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.0794E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.7043E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.2334E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8857E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4556E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4630E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.6430E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.2335E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0488E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.7328E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9590E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6602E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0438E+01 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2148E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5574E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.9338E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.9338E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.9338E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6598E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1590E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9757E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0488E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3401E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.3146E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9764E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.0493E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.4393E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.4680E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6973E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.9116E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8733E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 -************************************************************************* -***** ***** -***** Generic large tokamak file ***** -***** James Morris, UKAEA ***** -***** 28/06/23 ***** -***** ***** -************************************************************************* - -* Run Information * -******************* - -runtitle = Generic large tokamak - -* Figure of merit - minimise major radius -minmax = 1 - -* Error tolerance for VMCON -epsvmc = 1e-7 - -* Constraint Equations - Consistency Equations * -************************************************ - -* Beta consistency * -*------------------* -icc = 1 -ixc = 5 * beta -beta = 0.03 - -* Global power balance * -*----------------------* -icc = 2 - -* Radial build consistency * -*--------------------------* -icc = 11 - -* Constraint Equations - Limit Equations * -****************************************** - -* Density upper limit * -*---------------------* -icc = 5 -ixc = 6 * dene [m-3] -fdene = 1.2 -dene = 7.5E19 - -* Neutron wall load upper limit * -*-------------------------------* -icc = 8 -fwalld = 1.0 -* wall load limit [MW/m2] -walalw = 2.0 - -* Fusion power upper limit * -*--------------------------* - -icc = 9 -* Maximum allowable value fusion power [MW] -powfmax = 3000 - -* Burn time lower limit * -*-----------------------* -icc = 13 -* minimum burn time [s] -tbrnmn = 7200.0 - -* L-H threshold scaling * -*-----------------------* -icc = 15 -boundu(103) = 10.0 - -* Injection power upper limit * -*-----------------------------* -icc = 30 -* Maximum allowable value for injected power [MW] -pinjalw = 200.0 - -* Net electric power lower limit * -*--------------------------------* -icc = 16 -* Minimum allowable value for net eletric power [MW] -pnetelin = 400.0 - -* Beta upper limit * -*------------------* -icc = 24 -fbetatry = 0.5 - -* Max TF field * -*--------------* -icc = 25 -* Maximum allowable value for toroidal magnetic field [T] -bmxlim = 14.0 - -* Central solenoid EOF current density upper limit * -*--------------------------------------------------* -icc = 26 -ixc = 37 * coheof [A/m2] -boundu(38) = 1.0 -coheof = 1.5E7 -fjohc = 0.6 - -* Central solenoid BOP current density upper limit * -*--------------------------------------------------* -icc = 27 -ixc = 41 * fcohbop -boundu(39) = 1.0 -fjohc0 = 0.6 -fcohbop = 0.9 - -* I_op/I_Crit TF coil limit * -*---------------------------* -icc = 33 -boundu(50) = 1.0 -fiooic = 0.65 - -* Dump voltage upper limit * -*--------------------------* -icc = 34 -fvdump = 1.0 -vdalw = 10.0 - -* J_winding pack protection * -*---------------------------* -icc = 35 -fjprot = 1.0 - -* TF temp marg lower limit * -*--------------------------* -icc = 36 -* Minimum allowable temperature margin [K] -tmargmin = 1.5 - -* CS coil temp margin lower limit * -*---------------------------------* -icc = 60 -tmargmin_cs = 1.5 - -* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * -*-------------------------------------------------------------------------------* -icc = 62 -taulimit = 5.0 - -* dump time constraint for VV stresses * -*--------------------------------------* -icc = 65 -fmaxvvstress = 1.0 - -* CS stress limit * -*-----------------* -icc = 72 -foh_stress = 1.0 -* allowable hoop stress in Central Solenoid structural material [Pa] -alstroh = 7.5D8 - -* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7364958927861762E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816131769182739E-03 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3726682971630932E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478469926471685E-01 - # Final Feasible Point # - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184110508852179E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214061802967545E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373065250623551E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000000000000000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200000000000003E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294180263409936E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000000000000000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0306766676874581E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641276915104889E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4799999999999999E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767230398711622E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000000000000000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000000000000000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1499999999999998E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8211592959413325E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7873913601260301E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130079210601932E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109273974685442E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3984606064579725E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726178241376999E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000000000000000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166497863402878E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394202683174967E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394202683174967E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5678840536634993E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0791649005296215E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660031860723535E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122058569724179E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964068211059637E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306461560590513E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562112763302474E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701466132836737E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508102823769754E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409103545634878E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010009472003884E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6418726067169061E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1141640664763685E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108485850452746E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517131003701695E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404212380591363E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233044692992794E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2670582092885928E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000000000000000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000000000000000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2670582092885928E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770000000000000E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6799999999999997E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713927387117752E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9678657061843730E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000000000000000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000000000000000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789258444896149E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9833760374787377E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4958812214728574E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1527839888136086E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.7999999999999998E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565176518558033E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835204658901432E+01 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679369269407705E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.5999999999999996E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995199999999999E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2692837151779981E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709370284405457E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3515927417386751E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 8.9999999999999991E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593383668262902E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7417746108221735E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584633443538607E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955401837651436E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1869544320365620E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882494615801706E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910417612101675E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910417612101675E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814014871997946E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487551249009823E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300000000000001E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262341621488487E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154496699787060E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9264700284527592E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234261319919949E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000000000000000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500000000000000E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3830698657701359E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664756491028754E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8399999999999999E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549076591049509E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961059821403881E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.7999999999999998E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000000000000000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951013641245339E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000000000000000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0053786932544973E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544613672668174E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622161472005569E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8190628659834833E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183372254838087E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918614587341090E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4341571406911282E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126018599425237E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000000000000000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000000000000000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184110508852179E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214061802967545E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184110508852179E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000000000000000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000000000000004E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567208657101495E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000000000000000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000000000000000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6666666666666665E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000000000000000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500000000000001E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6517857142857142E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7187938085542798E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000000000000000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333333333333331E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081367139525412E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398222236371524E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738427771245592E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8881711539956693E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091095415265283E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0946658953123900E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568268843995554E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107701385273738E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183221746449050E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968101768657044E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842004944822461E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000000000000000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339078193128556E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0946658953123900E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304088153554879E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282238158373725E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109349535984607E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851252918648007E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000000000000000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706619596109692E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.7918962861690079E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479237924966830E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8614913867121408E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274127194579083E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3799999999999999E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273075375982215E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4606908015233011E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8471821451550285E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181553860444942E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7039759871338011E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208326198533010E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553407103451543E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221383528378945E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016131184593430E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221383528378945E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016131184593430E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491009818944320E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962239000298373E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0246646031169908E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312749570372239E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983306812224104E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024353239136862E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6267995537172013E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992154580660952E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963489151657144E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016632218466960E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000000000000000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027488674766381E+19 OP - Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.2027488674766381E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0238763988650204E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.5016814574985222E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.0238763988650204E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000000000000000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000000000000000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000000000000000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000000000000000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000000000000000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000000000000000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000000000000000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000000000000000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000000000000000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000000000000000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9775532338778915E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 4.9999999999999996E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844166390168525E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.5210461992023787E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000000000000000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000000000000006E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223365373551419E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.4999999999999998E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000000000000006E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000000000000000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000000000000001E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6013744337383191E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000000000000000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500000000000000E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000000000000000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2607764951557874E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058299505437499E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4197750778786202E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159764097767545E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4212588494120858E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445432332866363E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027488674766381E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000000000000000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000000000000000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283471494987166E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400469685270241E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000000000000000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2566942989974336E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000000000000000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033572477809735E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605187865268650E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682972075874642E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414965159168283E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430403895064032E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078007670142609E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000000000000009E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000000000000011E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000000000000009E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969163207042001E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3082784857290920E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1879701177995119E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6561582535796939E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148229282514502E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300000000000001E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000000000000000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7103603510773293E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283471494987182E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215070461955549E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3606541795759036E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000000000000000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700000000000000E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.0999999999999998E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.0999999999999998E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000000000000008E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778682136261203E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9827859659497832E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1463659117689817E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.4999999999999996E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164192126748128E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835807873251872E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247175835349776E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638885493472657E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000000000000000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5568606976286432E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803270897879523E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004088622349403E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9722610273227303E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708092218727384E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770623930782284E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378016952604767E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858003037135910E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6807612148873517E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842416978627824E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695394422085602E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730889736399632E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709835237397996E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221161971587549E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836490172750885E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019441728918775E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082065647247518E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2177599412762632E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6116899894301131E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767261883918934E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544517268223828E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345525475398784E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842416978627824E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695394422085602E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730889736399632E+01 OP - L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6842416978627824E+01 OP - L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6842416978627824E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1859718189050279E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515331418067850E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515331418067855E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515331418067850E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790435611887197E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075203792007804E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886055755170440E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969163207042001E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347270137331341E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0293637408258203E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000000000000000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7281789731025792E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109349535984621E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9375932379021271E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7307578036350031E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6814508068158602E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798626456150407E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056538204681951E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000000000000004E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529600480801527E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889128203388304E+02 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000000000000000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958752287538000E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2251873872162710E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103555996343977E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703369430742883E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537174340555314E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878200874438033E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9073679338199390E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2251873872162710E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000000000000000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000000000000000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197311948930800E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1227731797685366E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9524781957964692E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4328756128565802E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000000000000000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000000000000000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6810894573589527E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112154188382326E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414237052664427E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000000000000000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000000000000000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6860697628643209E-01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000000000000007E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1399550873986598E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350114471006487E+04 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100209127981158E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000000000000004E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000000000000000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000000000000004E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2251873872162710E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000000000000000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000000000000000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997049464426151E-03 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578155633193029E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000000000000000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2421844366806971E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5568606976286432E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000000000000000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000000000000000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5113721395257286E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722422897692240E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909498252762103E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889128203388304E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000000000000000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091095415265283E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000000000000000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913326803403406E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091095415265283E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000000000000000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9231545886456479E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4681659398875304E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7947687516318231E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000000000000002E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2672586247397737E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000000000000003E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000000000000000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000000000000004E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000000000000004E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000000000000000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000000000000007E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000000000000002E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000000000000000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000000000000000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000000000000002E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000000000000000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000000000000004E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000000000000004E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668127176836800E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000000000000003E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2672586247397737E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6036671918781593E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300000000000001E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000000000000004E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 5.9999999999999998E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000000000000009E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000000000000002E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 5.9999999999999998E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333333333333336E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0018838307941582E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000000000000011E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 6.9999999999999996E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000000000000004E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000000000000002E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000000000000002E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.7999999999999996E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6666666666666670E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333333333333336E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000000000000000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000000000000000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000000000000000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500000000000001E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694191539707965E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422222222222226E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933333333333330E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6666666666666670E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333333333333336E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0819987621919880E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0428688795434875E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000000000000000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000000000000000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000000000000000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000000000000000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000000000000000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000000000000000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6882620831496986E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400323196709277E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656136096266414E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725428159852314E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109105566727559E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075218233566240E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4222827320172460E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291127751304742E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496492988582254E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7837989034815589E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949161651762665E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744266467793896E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0018838307941582E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000000000000000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000000000000000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185063142677869E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1533924338568596E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398129337699031E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522204343860905E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000000000000000E+00 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8894929966111338E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002261034255889E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865093088182926E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897191000367224E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5223697586718497E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839224173154086E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002261034255889E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604225102089763E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841485207409978E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1339555498207733E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6278939198945260E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4495736006982714E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5300968168750978E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0774675205927974E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681708668643320E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684029772807750E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5988727971867459E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619704029788434E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984842315587336E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2672586247397737E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2672586247397737E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145348951759413E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182171641274945E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7962764178233542E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253333342158318E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506000000000002E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4666666666666668E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843333333333334E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521479384350348E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000000000000000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4666666666666668E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182171641274945E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253333342158318E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909302984764963E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411490663697627E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993264699454373E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571497641271930E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620150243613026E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7046788239913692E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478785286267719E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 5.9999999999999998E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8168732211553088E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000000000000003E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702640954128094E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593031361842451E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774454433181706E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1537877689666745E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881501984806333E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856349858708847E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000000000000002E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000000000000000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566590536515389E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2204880871595363E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8806575342546066E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914461594150031E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557441229422568E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8242873267567781E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6642873267567784E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0618653201603939E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121100329819221E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000000000000004E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000000000000000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6188786945579518E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000000000000004E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264746E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680002311735254E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000000000000000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495879717596564E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000000000000000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000000000000000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263488708765472E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735434503811812E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513998747931211E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4688858566283038E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724466797924787E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929442811600957E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1508710849856153E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234206728015016E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273288698579620E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273288698579621E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696062375322207E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5193638815245781E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554354336188905E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2278765650363476E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1115891275149688E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1115891275149688E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000000000000000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1331816163490191E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000000000000009E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000000000000053E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7972825893442060E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931497536786199E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000000000000000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924474768945366E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000000000000000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2969999999999999E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6059999999999999E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500000000000000E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851494840457509E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264746E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000000000000001E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658452563841767E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621074411482704E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2485807588522416E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819489279328801E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5193638815245785E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495879717596564E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168472487730312E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5462675002538017E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899459737769605E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3979551514573267E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5555536304627275E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666660891388181E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401489193138659E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0047872417147826E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028118743251245E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5115865380312496E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534759614093746E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7926625922790132E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1443595371072620E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4681659398875304E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000000000000002E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795054545344446E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639211880822574E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247448316575799E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3391763564246772E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2155842664521872E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569406270144511E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000000000000000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842387034279227E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716109147292161E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842387034279227E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6286501222438378E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000000000000001E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000000000000007E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 2.9999999999999999E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500000000000000E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413159951983948E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000000000000000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000000000000000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000000000000000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.8999999999999995E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6699999999999996E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653588312881502E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806928114075438E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821474906030099E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935642704691813E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856738617428965E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856738617428965E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000000000000000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000000000000000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.8999999999999995E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000000000000000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600000000000015E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5666666666666664E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3710591958073106E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708102374749011E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708102374749011E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411363140952903E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764545256381162E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785430283258826E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5666666666666664E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0604943026601472E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655475769629568E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655475769629568E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279805086108490E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0511922034443398E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556677274606415E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737101002783380E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6666666666666665E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234150300254839E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234150300254830E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8930919945307366E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723679781229460E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6086965476014758E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737101002783380E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6666666666666665E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234150300254839E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234150300254830E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8930919945307366E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723679781229460E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6086965476014758E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5214813504521585E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4666666666666659E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009474899808453E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009474899808275E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803032147486113E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212128589944452E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421309821712241E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5214813504521585E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4666666666666659E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009474899808453E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009474899808275E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803032147486113E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212128589944452E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421309821712241E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772514872311596E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000000000000000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4681659398875304E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5872790895429491E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6529950747013581E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8611980298805435E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028118743251245E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077362912054930E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000000000000003E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000000000000000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491189654661999E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6861615993705556E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000000000000000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997162192590063E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764545256381162E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764545256381162E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6844750434547663E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000000000000000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000000000000000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8300698411454808E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0511922034443397E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0511922034443397E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3634868471399616E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000000000000000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000000000000000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704010734909400E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9510804496076480E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9510804496076480E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723679781229468E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000000000000000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000000000000000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704010734909400E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9510804496076480E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9510804496076480E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723679781229468E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000000000000000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000000000000000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808281848042365E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236174029438850E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236174029438850E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212128589944448E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000000000000000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000000000000000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808281848042365E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236174029438850E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236174029438850E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212128589944448E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000000000000000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000000000000000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7400561799644512E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1382806468087040E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1382806468087040E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8611980298805434E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000000000000000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000000000000000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000000000000000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091095415265283E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091095415265283E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091095415265283E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000000000000000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459567385843644E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004188950962108E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253120320428565E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2716600806791359E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5819537240718782E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9995777371216944E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7969837491271808E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560000000000000E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911207098527977E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4975712620064523E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4414712542464117E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302871964672438E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1508710849856153E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000000000000000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463261712651662E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722256899299905E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5702661289172272E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313000000000000E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313000000000000E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423805E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500000000000000E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500000000000000E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7049999999999997E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2949999999999997E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000000000000001E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692138856227967E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9806924177715423E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849001123070318E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8519834418244170E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0177969703762566E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298236729823884E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449400858618031E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9675704822718380E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042028451802094E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664101010763287E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9695753601530008E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350468581562573E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498188338492177E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388163689348018E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462080656017478E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417160769290948E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981352553168369E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225823887364328E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998642207498645E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9935593088365726E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523496307253152E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5426760591013942E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500000000000000E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500000000000000E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500000000000000E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000000000000000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000000000000002E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044317885488435E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7798808517796122E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5348610218479632E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6036671918781593E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4878582807401261E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6452527878133093E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5462675002538020E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000000000000000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924474768945366E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000000000000000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622634675782194E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000000000000000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412002125924636E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000000000000000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000000000000000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692177288620777E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349532279944219E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185541351284569E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7972825893442064E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932602232220870E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9735808752664923E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8654978868854931E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1838865409838811E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9370693575835407E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7053841181060385E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500000000000000E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370140002030416E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1930619298297470E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8943724617955570E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236075947636635E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457277820192421E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550109833605347E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365045608384312E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019027365030586E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8948712423400426E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9300770639817113E+00 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000000000000000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0328675264714843E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480000000000000E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639494362405117E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639494362405094E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000000000000000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000000000000002E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9010618278257836E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8028989033733535E+02 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000000000000001E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6690576987239827E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000000000000001E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381153974479655E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625216673815295E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2587984996530222E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138183473061762E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138183473061764E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000000000000000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000000000000000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000000000000000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7789730593092941E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1601508574642011E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.5999999999999999E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369447038882812E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818137798037704E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818137798037704E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8865656183136549E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818137798037696E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1601508574642011E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956929285277056E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267258624739774E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948315142332470E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.7999999999999998E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000000000000000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3054510238430169E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9836588543661730E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548406292878596E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682056130009540E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1323545065852485E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641410295671469E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2530712372848891E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000000000000000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019027365030590E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000000000000000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4828607165089854E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000000000000000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000000000000000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749157192869105E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000000000000000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000000000000000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848029863228582E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083304640942495E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050307141931796E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9300770639817113E+00 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5113721395257286E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000000000000000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000000000000000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882175862615429E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523084195014306E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4728841737784283E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.2999999999999999E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8055922834711858E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8596678080552272E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559000445813483E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690112547621213E-02 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000000000000000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1314999999999998E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277296360485266E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203225806451637E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848029863228582E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2689999999999999E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500000000000000E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000000000000000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500000000000001E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000000000000000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000000000000000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423805E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885256727265937E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1757608548070834E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723033759107820E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083304640942495E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000000000000001E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000000000000001E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000000000000011E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000000000000002E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800265219281015E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186030007375011E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848029863228582E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523084195014306E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808296033225190E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5568606976286432E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000000000000000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000000000000000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1843923341322807E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1828538101034028E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886061328822433E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969163207042001E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8682977649526634E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0938595840475620E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605187865268650E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1463659117689817E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5568606976286432E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8682972075874642E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5568606976286432E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1463659117689817E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602475037619976E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.1827789336038841E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365274234572041E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296953006801150E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4489669134551838E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000000000000000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462080656017478E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.1828792721840587E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313439535630300E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000000000000000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5113721395257286E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083304640942495E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000000000000000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848029863228582E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9300770639817113E+00 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2356772008358388E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523084195014306E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314152404136132E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.7314152404136132E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314152404136121E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9405709396602210E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313439535630300E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097122860620416E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1843923341322807E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9412859148315727E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289321967721502E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341203454921679E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000000000000000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684142950377810E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682030476485525E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8682513877690162E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308863600136358E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 -************************************************************************* -***** ***** -***** Generic large tokamak file ***** -***** James Morris, UKAEA ***** -***** 28/06/23 ***** -***** ***** -************************************************************************* - -* Run Information * -******************* - -runtitle = Generic large tokamak - -* Figure of merit - minimise major radius -minmax = 1 - -* Error tolerance for VMCON -epsvmc = 1e-7 - -* Constraint Equations - Consistency Equations * -************************************************ - -* Beta consistency * -*------------------* -icc = 1 -ixc = 5 * beta -beta = 0.03 - -* Global power balance * -*----------------------* -icc = 2 - -* Radial build consistency * -*--------------------------* -icc = 11 - -* Constraint Equations - Limit Equations * -****************************************** - -* Density upper limit * -*---------------------* -icc = 5 -ixc = 6 * dene [m-3] -fdene = 1.2 -dene = 7.5E19 - -* Neutron wall load upper limit * -*-------------------------------* -icc = 8 -fwalld = 1.0 -* wall load limit [MW/m2] -walalw = 2.0 - -* Fusion power upper limit * -*--------------------------* - -icc = 9 -* Maximum allowable value fusion power [MW] -powfmax = 3000 - -* Burn time lower limit * -*-----------------------* -icc = 13 -* minimum burn time [s] -tbrnmn = 7200.0 - -* L-H threshold scaling * -*-----------------------* -icc = 15 -boundu(103) = 10.0 - -* Injection power upper limit * -*-----------------------------* -icc = 30 -* Maximum allowable value for injected power [MW] -pinjalw = 200.0 - -* Net electric power lower limit * -*--------------------------------* -icc = 16 -* Minimum allowable value for net eletric power [MW] -pnetelin = 400.0 - -* Beta upper limit * -*------------------* -icc = 24 -fbetatry = 0.5 - -* Max TF field * -*--------------* -icc = 25 -* Maximum allowable value for toroidal magnetic field [T] -bmxlim = 14.0 - -* Central solenoid EOF current density upper limit * -*--------------------------------------------------* -icc = 26 -ixc = 37 * coheof [A/m2] -boundu(38) = 1.0 -coheof = 1.5E7 -fjohc = 0.6 - -* Central solenoid BOP current density upper limit * -*--------------------------------------------------* -icc = 27 -ixc = 41 * fcohbop -boundu(39) = 1.0 -fjohc0 = 0.6 -fcohbop = 0.9 - -* I_op/I_Crit TF coil limit * -*---------------------------* -icc = 33 -boundu(50) = 1.0 -fiooic = 0.65 - -* Dump voltage upper limit * -*--------------------------* -icc = 34 -fvdump = 1.0 -vdalw = 10.0 - -* J_winding pack protection * -*---------------------------* -icc = 35 -fjprot = 1.0 - -* TF temp marg lower limit * -*--------------------------* -icc = 36 -* Minimum allowable temperature margin [K] -tmargmin = 1.5 - -* CS coil temp margin lower limit * -*---------------------------------* -icc = 60 -tmargmin_cs = 1.5 - -* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * -*-------------------------------------------------------------------------------* -icc = 62 -taulimit = 5.0 - -* dump time constraint for VV stresses * -*--------------------------------------* -icc = 65 -fmaxvvstress = 1.0 - -* CS stress limit * -*-----------------* -icc = 72 -foh_stress = 1.0 -* allowable hoop stress in Central Solenoid structural material [Pa] -alstroh = 7.5D8 - -* neped_neped_____________________________________________________________ (ineq_con081)_________________ 6.7364958927861829E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 2.7816131769184960E-03 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 1.3726682971826332E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.7478469926473483E-01 - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1184110508852179E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.3214061802967523E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9373065250623529E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000000000000000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200000000000003E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5294180263409936E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000000000000000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0306766676874581E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641276915104889E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4799999999999999E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9767230398711618E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000000000000000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000000000000000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1499999999999998E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8211592959413325E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7873913601260301E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130079210601932E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109273974685442E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3984606064579725E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726178241376999E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000000000000000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166497863402878E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394202683174967E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394202683174967E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5678840536634993E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0791649005296200E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660031860723535E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4122058569724179E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3964068211059623E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.7306461560590492E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4562112763302423E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4701466132836728E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4508102823769740E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.3409103545634798E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6010009472003861E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6418726067169061E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1141640664763656E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.5108485850452720E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3517131003701661E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404212380591363E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233044692992783E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2670582092885914E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000000000000000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000000000000000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2670582092885914E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.6770000000000000E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6799999999999997E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 3.0713927387117752E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.9678657061843730E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000000000000000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000000000000000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.2789258444896149E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9833760374787364E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4958812214728567E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1527839888136068E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.7999999999999998E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3565176518558033E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8835204658901404E+01 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7679369269407688E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.5999999999999996E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995199999999999E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2692837151779981E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709370284405457E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3515927417386742E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 8.9999999999999991E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9593383668262895E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7417746108221742E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5584633443538604E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6955401837651436E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1869544320365620E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0882494615801706E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7910417612101668E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7910417612101668E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6814014871997946E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0487551249009823E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300000000000001E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0262341621488487E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8154496699787060E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9264700284527592E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5234261319919949E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000000000000000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500000000000000E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3830698657701350E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7664756491028754E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8399999999999999E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8549076591049483E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3961059821403881E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.7999999999999998E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000000000000000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0951013641245332E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000000000000000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0053786932544973E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4544613672668165E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3622161472005555E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8190628659834831E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4183372254838084E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6918614587341071E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4341571406911280E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0126018599425235E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000000000000000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000000000000000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1184110508852179E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.3214061802967523E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1184110508852179E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000000000000000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000000000000004E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5567208657101492E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000000000000000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000000000000000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6666666666666665E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000000000000000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500000000000001E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6517857142857142E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7187938085542798E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000000000000000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333333333333331E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081367139525412E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398222236371524E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738427771245592E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8881711539956693E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6091095415265279E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0946658953123900E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2568268843995554E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3107701385273727E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3183221746449041E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.3968101768657033E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3842004944822452E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000000000000000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7339078193128556E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0946658953123900E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2304088153554886E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3282238158373727E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3109349535984614E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3851252918648016E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000000000000000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5706619596109689E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.7918962861690086E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1479237924966832E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8614913867121415E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4274127194579088E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3799999999999999E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0273075375982215E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4606908015233020E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8471821451550285E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9181553860444942E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7039759871338004E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.1208326198532987E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0553407103451543E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2221383528378944E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5016131184593426E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2221383528378944E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5016131184593426E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3491009818944320E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.7962239000298373E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0246646031169910E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.6312749570372239E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1983306812224104E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1024353239136862E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6267995537172013E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6992154580660944E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 4.6963489151657144E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.3016632218466960E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000000000000000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.2027488674766373E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.0238763988650211E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.5016814574985222E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.0238763988650211E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000000000000000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000000000000000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000000000000000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000000000000000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000000000000000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000000000000000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000000000000000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000000000000000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000000000000000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000000000000000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9775532338778904E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 4.9999999999999996E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.6844166390168525E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.5210461992023783E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000000000000000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000000000000006E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.1223365373551411E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.4999999999999987E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000000000000006E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000000000000000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000000000000001E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6013744337383186E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000000000000000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500000000000000E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000000000000000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2607764951557882E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.1058299505437498E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.4197750778786202E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0159764097767545E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4212588494120852E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.4445432332866355E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.2027488674766373E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000000000000000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000000000000000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6283471494987166E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9400469685270241E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000000000000000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2566942989974336E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000000000000000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3033572477809735E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2605187865268650E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8682972075874636E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.0414965159168275E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4430403895064029E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4078007670142595E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000000000000009E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000000000000011E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000000000000009E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7969163207041959E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3082784857290920E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1879701177995116E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.6561582535796939E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7148229282514502E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300000000000001E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000000000000000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7103603510773293E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6283471494987182E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0215070461955549E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.3606541795759036E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000000000000000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700000000000000E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.0999999999999998E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.0999999999999998E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000000000000008E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3778682136261203E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9827859659497832E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.1463659117689784E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.4999999999999996E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2164192126748128E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7835807873251872E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4247175835349779E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5638885493472660E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000000000000000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5568606976286375E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6803270897879520E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.1004088622349400E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9722610273227286E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2708092218727381E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7770623930782278E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7378016952604753E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0858003037135910E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6807612148873511E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6842416978627824E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2695394422085602E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6730889736399632E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7709835237397982E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9221161971587549E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5836490172750885E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1019441728918775E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3082065647247511E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2177599412762632E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6116899894301127E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3767261883918930E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 4.9544517268223814E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5345525475398784E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6842416978627824E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2695394422085602E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6730889736399632E+01 OP - L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.6842416978627824E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1859718189050279E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0515331418067846E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0515331418067850E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0515331418067846E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.3790435611887193E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 2.9075203792007798E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9886055755170440E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7969163207041959E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.5347270137331341E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.0293637408258212E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000000000000000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7281789731025796E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3109349535984628E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9375932379021273E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7307578036350026E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6814508068158602E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5798626456150396E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3056538204681948E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000000000000004E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.8529600480801527E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7889128203388299E+02 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000000000000000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7958752287538017E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2251873872162732E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5103555996343994E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3703369430742894E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1537174340555317E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0878200874438033E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9073679338199395E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2251873872162732E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000000000000000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000000000000000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8197311948930779E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1227731797685358E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9524781957964697E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4328756128565802E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000000000000000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000000000000000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.6810894573589527E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8112154188382326E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.2414237052664427E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000000000000000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000000000000000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.6860697628637524E-01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000000000000007E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1399550873986612E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.7350114471003802E+04 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.8100209127981158E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000000000000004E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000000000000000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000000000000004E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2251873872162732E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000000000000000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000000000000000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.6997049464424485E-03 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.7578155633193018E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000000000000000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.2421844366806977E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5568606976286375E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000000000000000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000000000000000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5113721395257275E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7722422897692229E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7909498252762103E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7889128203388299E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000000000000000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6091095415265281E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000000000000000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2913326803403434E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6091095415265281E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000000000000000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.9231545886456497E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4681659398875293E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7947687516318231E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000000000000002E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.2672586247397692E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000000000000003E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000000000000000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000000000000004E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000000000000004E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000000000000000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000000000000007E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000000000000002E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000000000000000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000000000000000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000000000000002E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000000000000000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000000000000004E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000000000000004E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3668127176836800E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000000000000003E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000000000000003E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.2672586247397692E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6036671918781593E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300000000000001E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000000000000004E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 5.9999999999999998E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000000000000009E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000000000000002E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 5.9999999999999998E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333333333333336E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0018838307941582E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000000000000011E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 6.9999999999999996E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000000000000004E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000000000000002E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000000000000002E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.7999999999999996E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6666666666666670E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333333333333336E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000000000000000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000000000000000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000000000000000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500000000000001E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694191539707965E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422222222222226E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933333333333330E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6666666666666670E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333333333333336E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0819987621919880E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0428688795434875E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000000000000000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000000000000000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000000000000000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000000000000000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000000000000000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000000000000000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6882620831496986E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400323196709277E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656136096266414E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725428159852314E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109105566727559E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075218233566240E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4222827320172460E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291127751304742E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496492988582254E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7837989034815589E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949161651762665E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744266467793896E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0018838307941582E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000000000000000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000000000000000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4185063142677883E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1533924338568596E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0398129337699037E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1522204343860888E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8848669309786465E-08 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8894929966109878E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6002261034255895E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5865093088181555E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4897191000365770E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5223697586718374E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7839224173153108E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6002261034255895E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5604225102088869E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3841485207409000E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1339555498206755E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6278939198944408E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4495736006982762E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5300968168750197E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0774675205927169E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2681708668641430E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2684029772807755E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.5988727971865134E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1619704029788429E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984842315587336E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.2672586247397692E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.2672586247397692E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145348951759411E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182171641274945E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7962764178233542E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253333342158314E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506000000000002E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4666666666666668E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843333333333343E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4521479384350348E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000000000000000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4666666666666668E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182171641274945E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253333342158314E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909302984764963E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8411490663697617E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2993264699454365E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0571497641271930E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.6620150243613114E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7046788239913769E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6478785286267663E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 5.9999999999999998E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8168732211553088E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000000000000003E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5702640954128036E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8593031361842440E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2774454433181694E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.1537877689666733E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1881501984806333E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0856349858708847E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000000000000002E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000000000000000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.9566590536515389E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2204880871595374E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8806575342546170E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2914461594150020E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5557441229422562E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8242873267567781E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6642873267567784E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0618653201603933E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0121100329819239E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000000000000004E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000000000000000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6188786945579511E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000000000000004E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264757E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.7680002311735243E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000000000000000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8495879717596546E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000000000000000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000000000000000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.5263488708765353E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.6735434503811775E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.2513998747931211E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4688858566283084E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5724466797924781E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1929442811600887E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1508710849856142E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2234206728015016E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1273288698579614E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1273288698579615E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2696062375322207E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5193638815245777E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1554354336188909E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2278765650363468E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1115891275149679E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1115891275149679E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000000000000000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.1331816163490161E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000000000000009E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000000000000053E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7972825893442060E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2931497536786154E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000000000000000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9924474768945313E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000000000000000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2969999999999999E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6059999999999999E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500000000000000E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4851494840457509E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.2319997688264757E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000000000000001E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0658452563841771E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.0621074411482704E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2485807588522409E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.8819489279328756E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5193638815245777E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000000000000000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8495879717596546E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3168472487730300E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.5462675002538017E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4899459737769671E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3979551514573267E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5555536304627275E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0666660891388181E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.8401489193138666E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0047872417147826E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4028118743251246E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5115865380312496E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0534759614093746E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7926625922790132E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1443595371072624E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0038431902367830E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4681659398875293E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000000000000002E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6795054545344428E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4639211880822565E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1247448316575794E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3391763564246768E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2155842664521863E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.8569406270144511E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000000000000000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4842387034279227E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5716109147292161E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4842387034279227E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6286501222438378E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000000000000001E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000000000000007E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 2.9999999999999999E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500000000000000E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5413159951983957E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000000000000000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000000000000000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000000000000000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.8999999999999995E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6699999999999996E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8653588312881498E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4806928114075424E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6821474906030064E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4935642704691809E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.7856738617428982E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.7856738617428982E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000000000000000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000000000000000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.8999999999999995E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000000000000000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600000000000015E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5666666666666664E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3710591958073106E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2708102374749011E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2708102374749011E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4411363140952892E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7764545256381158E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3785430283258817E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5666666666666664E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0604943026601472E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3655475769629550E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3655475769629568E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1279805086108468E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0511922034443387E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8556677274606352E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6737101002783380E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6666666666666665E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1234150300254839E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1234150300254830E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.8930919945307360E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.5723679781229443E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6086965476014750E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6737101002783380E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6666666666666665E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1234150300254839E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1234150300254830E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.8930919945307360E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.5723679781229443E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6086965476014750E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5214813504521585E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4666666666666659E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0009474899808453E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0009474899808275E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2803032147486110E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1212128589944435E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5421309821712241E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5214813504521585E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4666666666666659E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0009474899808453E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0009474899808275E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2803032147486110E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1212128589944435E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5421309821712241E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2772514872311596E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000000000000000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4681659398875304E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5872790895429491E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6529950747013581E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8611980298805435E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028118743251246E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5077362912054930E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000000000000003E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000000000000000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3491189654661999E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.6861615993705539E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000000000000000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3997162192590062E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7764545256381158E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7764545256381158E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6844750434547471E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000000000000000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000000000000000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8300698411454812E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0511922034443386E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0511922034443386E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.3634868471399657E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000000000000000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000000000000000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9704010734909395E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9510804496076461E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9510804496076461E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.5723679781229440E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000000000000000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000000000000000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9704010734909395E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9510804496076461E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9510804496076461E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.5723679781229440E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000000000000000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000000000000000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.1808281848042365E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7236174029438822E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7236174029438822E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1212128589944439E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000000000000000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000000000000000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.1808281848042365E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7236174029438822E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7236174029438822E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1212128589944439E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000000000000000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000000000000000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7400561799644512E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.1382806468087006E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.1382806468087006E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8611980298805434E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000000000000000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000000000000000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000000000000000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6091095415265281E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6091095415265281E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6091095415265281E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000000000000000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.1459567385843635E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2004188950962080E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4253120320428550E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2716600806791354E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5819537240718782E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9995777371216932E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7969837491271773E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560000000000000E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911207098527977E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4975712620064509E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4414712542464089E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6302871964672438E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1508710849856142E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000000000000000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463261712651662E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6722256899299905E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5702661289172272E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313000000000000E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313000000000000E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423801E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500000000000000E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500000000000000E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7049999999999997E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2949999999999997E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000000000000001E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692138856227967E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9806924177715423E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849001123070318E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8519834418244170E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0177969703762566E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298236729823884E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449400858618031E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9675704822718380E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042028451802094E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664101010763287E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9695753601530008E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350468581562573E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498188338492177E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388163689348018E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5462080656017443E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6417160769290948E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2981352553168369E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4225823887364328E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4998642207498645E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9935593088365726E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523496307253152E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5426760591013942E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500000000000000E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500000000000000E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500000000000000E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000000000000000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000000000000002E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044317885488435E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7798808517796122E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5348610218479632E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6036671918781593E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4878582807401261E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6452527878133093E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.5462675002538020E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000000000000000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9924474768945313E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000000000000000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.3622634675782166E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000000000000000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 3.0412002125924619E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000000000000000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000000000000000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1692177288620771E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349532279944211E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9185541351284555E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7972825893442057E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1932602232220853E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9735808752664923E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8654978868854916E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1838865409838796E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.9370693575835407E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7053841181060371E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500000000000000E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.8370140002030416E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1930619298297470E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8943724617955570E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2236075947636635E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457277820192421E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9550109833605320E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8365045608384305E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1019027365030583E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8948712423400412E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.9300770639817113E+00 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000000000000000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0328675264714849E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480000000000000E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6639494362405117E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6639494362405117E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000000000000000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000000000000002E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.9010618278257833E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8028989033733535E+02 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000000000000001E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6690576987239827E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000000000000001E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381153974479655E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.3625216673815295E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2587984996530222E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6138183473061762E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6138183473061764E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000000000000000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000000000000000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000000000000000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7789730593092941E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 8.1601508574642011E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.5999999999999999E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.2369447038882812E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 5.3818137798037704E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 5.3818137798037704E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.8865656183136549E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 5.3818137798037696E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 8.1601508574642011E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.4956929285277056E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7267258624739770E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.5948315142332470E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.7999999999999998E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000000000000000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 4.3054510238430169E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9836588543661730E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9548406292878596E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3682056130009540E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1323545065852485E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641410295671469E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2530712372848891E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000000000000000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2019027365030583E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000000000000000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4828607165089854E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000000000000000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000000000000000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5749157192869105E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000000000000000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000000000000000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5848029863228582E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9083304640942495E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0050307141931739E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.9300770639817113E+00 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5113721395257275E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000000000000000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000000000000000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3882175862615406E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5523084195014306E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4728841737784276E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.2999999999999999E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8055922834711840E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8596678080552272E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2559000445813483E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2690112547621213E-02 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000000000000000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1314999999999998E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277296360485266E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203225806451637E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5848029863228582E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2689999999999999E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500000000000000E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000000000000000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500000000000001E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000000000000000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000000000000000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6430173352721368E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7159039370423801E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1129119436821641E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8885256727265937E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1757608548070834E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9723033759107815E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9083304640942495E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000000000000001E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000000000000001E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000000000000011E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000000000000002E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5800265219281015E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0186030007375011E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5848029863228582E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5523084195014306E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4808296033225190E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5568606976286375E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000000000000000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000000000000000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1843923341322801E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1828538101034028E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9886061328822439E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7969163207041959E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8682977649526634E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0938595840475620E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2605187865268650E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.1463659117689784E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5568606976286375E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8682972075874636E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5568606976286375E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.1463659117689784E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6602475037619976E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.1827789336038841E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8365274234572041E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4296953006801150E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4489669134551838E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000000000000000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5462080656017443E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.1828792721840587E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1313439535630312E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000000000000000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5113721395257275E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9083304640942495E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000000000000000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000000000000000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5848029863228582E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.9300770639817113E+00 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2356772008358383E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5523084195014306E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7314152404136132E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.7314152404136132E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7314152404136121E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6302871964672438E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1028374319297734E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9405709396602210E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1313439535630312E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3097122860620416E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1843923341322801E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9412859148315729E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1289321967721509E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5341203454921690E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000000000000000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2684142950377799E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5682030476485525E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8682513877690162E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8308863600136358E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Once through only: no optimisation -ioptimz = -2 -* Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 - -*--------------------------------------------------* - - -*---------------Constraint Equations---------------* - -icc = 1 * Beta -icc = 2 * Global power balance -icc = 11 * Radial build -icc = 5 * Density upper limit -icc = 8 * Neutron wall load upper limit -icc = 9 * Fusion power upper limit -icc = 13 * Burn time lower limit -icc = 15 * LH power threshold limit -icc = 30 * Injection power upper limit -icc = 16 * Net electric power lower limit -icc = 24 * Beta upper limit -icc = 25 * Peak toroidal field upper limit -icc = 26 * Central solenoid EOF current density upper limit -icc = 27 * Central solenoid BOP current density upper limit -icc = 33 * I_op -icc = 34 * Dump voltage upper limit -icc = 35 * J_winding pack -icc = 36 * TF coil temperature margin lower limit -icc = 60 * Central solenoid temperature margin lower limit -icc = 62 * taup -icc = 65 * Dump time set by VV loads -icc = 72 * central solenoid shear stress limit -icc = 81 * Ne -icc = 68 * Psep -icc = 31 * TF coil case stress upper limit -icc = 32 * TF coil conduit stress upper limit - -*---------------Iteration Variables----------------* - -ixc = 2 * bt -ixc = 3 * rmajor -boundl(3) = 8.0 -boundu(3) = 9.0 -ixc = 4 * te -boundu(4) = 100.0 -ixc = 5 * beta -ixc = 6 * dene -ixc = 10 * hfact -boundu(10) = 1.2 -ixc = 13 * tfcth -boundl(13) = 0.7 -ixc = 16 * ohcth -boundl(16) = 0.3 -ixc = 18 * q -boundl(18) = 3.0 -ixc = 29 * bore -boundl(29) = 0.1 -ixc = 37 * coheof -ixc = 41 * fcohbop -ixc = 44 * fvsbrnni -ixc = 56 * tdmptf -ixc = 57 * thkcas -ixc = 58 * thwcndut -boundl(58) = 0.008 -ixc = 59 * fcutfsu -boundl(59) = 0.50 -boundu(59) = 0.94 -ixc = 60 * cpttf -boundl(60) = 65000.0 -boundu(60) = 90000.0 -ixc = 109 * ralpne -boundu(109) = 0.1 -ixc = 122 * oh_steel_frac -ixc = 135 * fimp(13) -ixc = 140 * dr_tf_wp -boundl(140) = 0.4 - -*---------------Cs Fatigue Variables---------------* - - -*------------------- Costs 1990--------------------* - - -*------------------- Costs 2015--------------------* - - -*-----------------Blanket Library------------------* - - -*----------------------Build-----------------------* - - -*-----------------Build Variables------------------* - -blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.003843190236783 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.546816593988753 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.000597755323387789 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21443595.371072624 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.93491189654662 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.4856940627014451 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.03230408815355488 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.318322174644904 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.796223900029837e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.4242184436680697 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.185971818905028 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7339078193128556 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.060238763988650204 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.221383528378944 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 85462.67500253802 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.8231999768826475 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.97282589344206 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.5153787768966674 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.008012110032981922 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/lt_ineqs_sol_IN.DAT b/solution_points/large_tokamak/lt_ineqs_sol_IN.DAT deleted file mode 100644 index cf71465..0000000 --- a/solution_points/large_tokamak/lt_ineqs_sol_IN.DAT +++ /dev/null @@ -1,443 +0,0 @@ -* Once through only: no optimisation -ioptimz = -2 -* Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 - -*--------------------------------------------------* - - -*---------------Constraint Equations---------------* - -icc = 1 * Beta -icc = 2 * Global power balance -icc = 11 * Radial build -icc = 5 * Density upper limit -icc = 8 * Neutron wall load upper limit -icc = 9 * Fusion power upper limit -icc = 13 * Burn time lower limit -icc = 15 * LH power threshold limit -icc = 30 * Injection power upper limit -icc = 16 * Net electric power lower limit -icc = 24 * Beta upper limit -icc = 25 * Peak toroidal field upper limit -icc = 26 * Central solenoid EOF current density upper limit -icc = 27 * Central solenoid BOP current density upper limit -icc = 33 * I_op -icc = 34 * Dump voltage upper limit -icc = 35 * J_winding pack -icc = 36 * TF coil temperature margin lower limit -icc = 60 * Central solenoid temperature margin lower limit -icc = 62 * taup -icc = 65 * Dump time set by VV loads -icc = 72 * central solenoid shear stress limit -icc = 81 * Ne -icc = 68 * Psep -icc = 31 * TF coil case stress upper limit -icc = 32 * TF coil conduit stress upper limit - -*---------------Iteration Variables----------------* - -ixc = 2 * bt -ixc = 3 * rmajor -boundl(3) = 8.0 -boundu(3) = 9.0 -ixc = 4 * te -boundu(4) = 100.0 -ixc = 5 * beta -ixc = 6 * dene -ixc = 10 * hfact -boundu(10) = 1.2 -ixc = 13 * tfcth -boundl(13) = 0.7 -ixc = 16 * ohcth -boundl(16) = 0.3 -ixc = 18 * q -boundl(18) = 3.0 -ixc = 29 * bore -boundl(29) = 0.1 -ixc = 37 * coheof -ixc = 41 * fcohbop -ixc = 44 * fvsbrnni -ixc = 56 * tdmptf -ixc = 57 * thkcas -ixc = 58 * thwcndut -boundl(58) = 0.008 -ixc = 59 * fcutfsu -boundl(59) = 0.50 -boundu(59) = 0.94 -ixc = 60 * cpttf -boundl(60) = 65000.0 -boundu(60) = 90000.0 -ixc = 109 * ralpne -boundu(109) = 0.1 -ixc = 122 * oh_steel_frac -ixc = 135 * fimp(13) -ixc = 140 * dr_tf_wp -boundl(140) = 0.4 - -*---------------Cs Fatigue Variables---------------* - - -*------------------- Costs 1990--------------------* - - -*------------------- Costs 2015--------------------* - - -*-----------------Blanket Library------------------* - - -*----------------------Build-----------------------* - - -*-----------------Build Variables------------------* - -blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0069 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.53594 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00064603 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21679000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.94305 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.49223 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.03261 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.3652 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.8988e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.45667 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.188 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7147 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.068358 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.491 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 89837.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.81662 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.415 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.29983 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.50496 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.008 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT b/solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT deleted file mode 100644 index 7b1784c..0000000 --- a/solution_points/large_tokamak/lt_ineqs_sol_MFILE.DAT +++ /dev/null @@ -1,1488 +0,0 @@ - # PROCESS # - # Power Reactor Optimisation Code # - # PROCESS # - # Power Reactor Optimisation Code # - PROCESS_version_number__________________________________________________ (procver)_____________________ "3.1.0 R" - Date_of_run_____________________________________________________________ (date)________________________ "03/04/2024" - Time_of_run_____________________________________________________________ (time)________________________ "13:36" - User____________________________________________________________________ (username)____________________ "jon" - PROCESS_run_title_______________________________________________________ (runtitle)____________________ "generic large tokamak - PROCESS_tag_number______________________________________________________ (tagno)_______________________ "v3.1.0-2-gcd33ed331" - PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "main" - PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "remove tfc_model commented out code ([hash]3116)" - Input_filename__________________________________________________________ (fileprefix)__________________ "/home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_sol_IN.DAT " - Optimisation_switch_____________________________________________________ (ioptimz)_____________________ -2 - Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 - # Final UNFEASIBLE Point # - # Numerics # - Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 - Beta_consistency__________________normalised_residue____________________ (eq_con001)___________________ -2.5694E-05 - Global_power_balance_consistency__normalised_residue____________________ (eq_con002)___________________ 8.0975E-06 - Radial_build_consistency__________normalised_residue____________________ (eq_con011)___________________ -3.1544E-06 - Density_upper_limit_____________________________________________________ (ineq_con005)_________________ 2.4996E-03 - Neutron_wall_load_upper_limit___________________________________________ (ineq_con008)_________________ 9.2316E-01 - Fusion_power_upper_limit________________________________________________ (ineq_con009)_________________ 8.0751E-01 - Burn_time_lower_limit___________________________________________________ (ineq_con013)_________________ 1.8525E-02 - L-H_power_threshold_limit_______________________________________________ (ineq_con015)_________________ 4.0616E-01 - Injection_power_upper_limit_____________________________________________ (ineq_con030)_________________ 1.3083E+00 - Net_electric_power_lower_limit__________________________________________ (ineq_con016)_________________ -1.3187E-01 - Beta_upper_limit________________________________________________________ (ineq_con024)_________________ 1.0793E-02 - Peak_toroidal_field_upper_limit_________________________________________ (ineq_con025)_________________ 1.3433E-01 - CS_coil_EOF_current_density_limit_______________________________________ (ineq_con026)_________________ 7.7077E-02 - CS_coil_BOP_current_density_limit_______________________________________ (ineq_con027)_________________ 1.1508E-01 - I_op_/_I_critical_(TF_coil)_____________________________________________ (ineq_con033)_________________ 2.2965E-03 - Dump_voltage_upper_limit________________________________________________ (ineq_con034)_________________ 1.6672E-03 - J_winding_pack/J_protection_limit_______________________________________ (ineq_con035)_________________ -2.1672E-05 - TF_coil_temp._margin_lower_limit________________________________________ (ineq_con036)_________________ 2.2191E-01 - CS_temperature_margin_lower_limit_______________________________________ (ineq_con060)_________________ 2.1856E-02 - taup/taueff_____________________________________________________________ (ineq_con062)_________________ 1.3463E-01 - Dump_time_set_by_VV_stress______________________________________________ (ineq_con065)_________________ 1.2053E+00 - CS_Tresca_yield_criterion_______________________________________________ (ineq_con072)_________________ 2.1857E-05 - ne0_>_neped_____________________________________________________________ (ineq_con081)_________________ 6.7117E-01 - Upper_Lim._on_Psep_*_Bt_/_q_A_R_________________________________________ (ineq_con068)_________________ 1.0952E-02 - TF_coil_case_stress_upper_limit_________________________________________ (ineq_con031)_________________ 8.7269E-03 - TF_coil_conduit_stress_upper_lim________________________________________ (ineq_con032)_________________ 1.8043E-01 - # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0099E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8409E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 1.6074E+02 - # Detailed Costings (1990 US$) # - Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 - Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 - # Structures and Site Facilities # - Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 - Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5354E+02 - Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 - Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 - Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 - Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 - Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9903E+01 - Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 - Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 - Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 - Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 1.1111E+01 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.8377E+02 - # Reactor Systems # - First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 - Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 - Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 - Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 - Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 - Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 - Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 - Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 - Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 - Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.1217E+01 - Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4126E+03 - # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.4195E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.5017E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.5933E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.5081E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4981E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.5209E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6137E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6504E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.1734E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.7231E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.3733E+02 - Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7435E+03 - # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.5993E+02 - Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 - Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.5993E+02 - # Vacuum Systems # - High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.5210E+01 - Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.9056E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.5869E+00 - Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 - Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 3.0683E+01 - # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 4.0644E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6180E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1907E+01 - TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5283E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0223E+02 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.8865E+00 - PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 - PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 - PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2683E+00 - PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3173E+00 - PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9677E+01 - Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.4640E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5655E+02 - # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7421E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.3030E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.1045E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 3.4856E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 3.4856E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 3.2330E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 4.6860E+02 - # Fuel Handling System # - Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0360E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8226E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9333E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5346E+02 - # Instrumentation and Control # - Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 - # Maintenance Equipment # - Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 - # Total Account 22 Cost # - Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.6003E+03 - # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.8004E+02 - # Electric Plant Equipment # - Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 8.8978E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 7.1294E+00 - Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 - Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.2727E+01 - # Miscellaneous Plant Equipment # - Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 - # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.1213E+01 - # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.6831E+03 - # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.4160E+03 - # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8953E+03 - # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4778E+03 - # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 9.0561E+03 - # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4943E+03 - # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0550E+04 - # Plant Availability # - Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 - Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 - First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0099E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8409E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0099E+00 OP - Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 - Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 - Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 5.7553E+04 - # Plasma # - Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 - Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV - Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 - Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 - Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 - Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 - Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 - Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 - Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 - Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 - Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 - Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP - Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP - Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 - Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6317E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 2.0787E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2528E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4075E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.3652E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5146E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.4323E+00 - Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.7147E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 3.0787E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.2610E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3274E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.3431E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3399E-03 OP - Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.5352E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.8270E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1507E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 2.8982E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.4246E-01 - 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 5.0111E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.4788E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8594E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9314E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7150E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4014E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0845E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2491E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5764E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2491E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5764E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3801E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.8988E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0375E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.7427E+19 OP - Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.1970E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1128E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5662E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 5.1424E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.3995E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.5119E+16 OP - Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3038E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 6.8358E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.3148E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 6.8358E-02 - Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 - C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 - N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 - O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 - Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 - Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 - Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 - Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 - Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 - Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 - Xe_concentration________________________________________________________ (fimp(13))____________________ 6.4603E-04 ITV - W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7070E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.6591E+00 - Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 - Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 - Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 - Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2082E+19 OP - Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 - Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 - Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 - Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 - Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 - Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6519E+19 - Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 - Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 - Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 - Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2330E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0963E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3747E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 2.8593E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.4075E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.5350E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3038E+19 OP - Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 - Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6597E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6577E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9970E+00 OP - __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.3155E+02 OP - Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3269E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2969E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 4.0352E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.6022E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.5755E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.5578E+01 OP - Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 - Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 - Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 - Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.5840E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.4331E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.3915E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.9267E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.8744E-01 OP - Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP - Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP - Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 6.2416E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6577E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0400E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2874E+01 OP - Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP - Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP - Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP - Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP - Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3478E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9395E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.0796E-01 OP - Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1833E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8167E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4579E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.6190E+02 OP - Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 8.6645E+01 OP - Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6437E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0546E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8917E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2946E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.8384E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.8263E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1268E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.7116E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.7609E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2797E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.7243E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.8136E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9918E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.6092E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1103E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3254E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2209E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.6683E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.3986E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.0905E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5731E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.7609E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2797E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.7243E+01 OP - L-H_threshold_power_(NOT_enforced)_(MW)_________________________________ (plhthresh)___________________ 9.7609E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1880E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.0551E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.0551E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.0551E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.4132E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0143E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 3.0768E+02 OP - Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.5840E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.7332E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 5.6731E+00 - Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.6875E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.3431E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9426E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6559E-03 OP - Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 2.8305E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3347E+02 OP - Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9211E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.7260E-01 OP - bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8028E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2279E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5411E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3883E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.1646E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.0955E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -2.9349E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2279E-01 - Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 - Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.7260E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.2028E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.8963E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4308E-05 OP - Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 - Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 - Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 4.1891E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.9165E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.4124E-01 - # Energy confinement times, and required H-factors : # - # Current Drive System # - Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 - Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 - Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 - Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 - Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 1.1645E+01 - Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 1.9022E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 5.5284E+05 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.7476E-02 OP - Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP - Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 - ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 - Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2279E-01 - Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 - Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 3.3882E-02 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.4333E-01 - Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.5667E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 8.6645E+01 OP - Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 - ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 - ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.7329E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7545E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8268E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7361E+02 - # Times # - Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6317E+02 - Heating_time_(s)________________________________________________________ (t_fusion_ramp)_______________ 1.0000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.3334E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6317E+02 - Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 2.6363E+03 OP - # Radial Build # - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 - Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0069E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.8019E-02 - CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.3445E-01 ITV - TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 - Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 - thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 - Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 - Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 - Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 - Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 - Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 - Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 - Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 - Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 - Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 - Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 - Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 - Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3627E+00 - Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 - Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.3445E-01 - # Vertical Build # - Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 - Cryostat_roof_structure*________________________________________________ (clh1)________________________ 5.6071E+00 - Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 - Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 - Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 - Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 - Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 - Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 - Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 - Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 - Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 - Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 - Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 - External_cryostat_thickness_(excludes_structure)_(m)____________________ (ddwex)_______________________ 1.5000E-01 - Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 - Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 - # Divertor build and plasma position # - Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 - Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 - Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 - Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 - Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 - Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 - TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 - Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 - Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 - Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 - Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 - Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 - Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 - Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 - Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 - Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 - Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 - Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 - Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 - Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 - Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 - Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 - Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 - Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 - Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 - Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 - Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 - Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 - Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 - Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 - Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 - Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 - # TF coils # - Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 - Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 - WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.3691E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1443E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0393E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1527E-01 OP - Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 - toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8277E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6074E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5340E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4351E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.6046E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7463E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6074E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5318E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3536E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.0504E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5784E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4536E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4855E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0320E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1635E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2719E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -8.0096E-03 OP - Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 - Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 - Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 - TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 - Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 - Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1581E+00 OP - Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.3445E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.3445E-01 - Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP - Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP - Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7981E+01 OP - Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 - TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 - TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 - TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 - TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 - TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4517E+01 - TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 - TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 - TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 - TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 - TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 - TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8542E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.3173E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1045E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.5080E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.5885E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.8323E-01 - Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.9983E-01 ITV - Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.7417E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7565E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1773E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.0496E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1902E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0898E+00 OP - Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 - Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 - Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.8415E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1708E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8210E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3471E-01 - Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4930E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8886E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7286E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.1286E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0000E-03 ITV - Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 - Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 - internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6737E-03 - Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.8338E-01 - Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 - minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 - TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.8329E+00 - Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 - Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 - Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 - Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 5.9367E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.5991E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.9854E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3968E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5418E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.3335E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1734E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2342E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1461E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1461E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2807E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5907E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1574E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2495E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1467E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.1467E+08 OP - inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.2773E+07 OP - Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 - Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP - Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.7415E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.4845E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 1.0000E+01 - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9834E+00 OP - Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 - # Superconducting TF Coils # - Superconductor_switch___________________________________________________ (isumat)______________________ 1 - Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 - Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 - Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 - Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4693E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.1662E-01 ITV - Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0862E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 6.9112E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.2674E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.9949E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5907E+07 OP - Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.8329E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.3853E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9837E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 6.4851E-01 OP - # Central Solenoid and PF Coils # - Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3971E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5632E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0690E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7995E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0444E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3877E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.6496E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0949E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.8917E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1679E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0069E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.3594E-01 ITV - Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.5069E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3195E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0237E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.2959E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.1873E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9223E-01 ITV - Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 - Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 - Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4998E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.4333E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4998E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.5900E+09 OP - Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 - Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 - Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 - Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 - CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5328E+00 OP - Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 - Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 - Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 - Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 - Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 - CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8451E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4400E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5577E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4800E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.8423E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.8423E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP - Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP - PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 - Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 - Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 - JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 - PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 - PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3788E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2734E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2734E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4593E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7837E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.3294E+00 - PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0613E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3672E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3672E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1403E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0561E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.8042E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6741E+01 - PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1302E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1302E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9159E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6636E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6287E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6741E+01 - PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1302E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1302E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9159E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6636E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6287E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5219E+01 - PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0431E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0431E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.2938E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.1753E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5608E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5219E+01 - PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0431E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0431E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.2938E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.1753E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5608E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2749E+00 - Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.3594E-01 - Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6105E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8442E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3971E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.4887E-04 OP - Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 - # Volt Second Consumption # - Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP - # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.4305E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.5965E-01 OP - # PF Circuit Waveform Data # - Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 - PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 - PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3995E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7837E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7837E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 6.2762E+05 - PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 - PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8297E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0561E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0561E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -1.9380E+06 - PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 - PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 - PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9802E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0512E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0512E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6636E+06 - PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 - PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9802E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0512E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0512E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6636E+06 - PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 - PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.0987E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7943E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7943E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.1753E+06 - PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 - PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.0987E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7943E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7943E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.1753E+06 - PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 - CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 - CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7392E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 2.9443E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 2.9443E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8442E+08 - CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 - Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 - Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 - Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6317E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6317E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6317E+07 - Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 - # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2066E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.3089E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4617E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2852E+06 OP - Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 4.0271E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.8908E+05 OP - # PF Coil Inductances # - # Nuclear Heating Magnets Before Renormalisation # - Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 - Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 - Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.5268E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.5342E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6597E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1734E+07 - # Pumping for primary coolant (helium) # - Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 - Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP - Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.7169E+03 OP - Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP - Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 - Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7228E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2414E-03 OP - # First wall and blanket : CCFE HCPB model # - Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 - Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 - Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 - Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 - Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 - First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 - First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 - Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 - Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 - Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 - First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP - First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP - Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP - ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP - ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP - ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP - Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP - Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP - Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP - Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.6428E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6714E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3216E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4483E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5270E+02 OP - Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP - Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP - Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP - Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 - Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 - First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 - Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 - Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 - No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 - No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 - No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 - No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 - Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 - First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP - Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7806E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5360E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6071E+00 OP - Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP - Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP - # Superconducting TF Coil Power Conversion # - TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9837E+01 OP - Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9834E+00 OP - TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.0965E+01 OP - Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.9775E+02 - Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 - Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1113E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2422E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9524E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7415E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1264E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4329E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.9491E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.2768E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3945E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.7355E+01 OP - Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1870E+02 OP - Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1961E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1640E-03 OP - TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 5.0131E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8959E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1375E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.9283E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0438E+01 OP - # PF Coils and Central Solenoid: Power and Energy # - Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 - Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0262E+02 OP - Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6531E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6531E+02 OP - Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 - Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 - Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.8782E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 9.9000E+03 OP - # Vacuum System # - First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 - Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP - Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 - Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP - N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 3.0091E+01 OP - Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6351E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6351E-03 - Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 - Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 - CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 - Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 7.3026E+01 OP - Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.4072E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.8162E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.8162E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.4781E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.8162E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 7.3026E+01 OP - Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.2794E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7344E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.3352E-01 OP - Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP - Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 - Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.8530E+01 OP - # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9975E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9567E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3869E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1339E+06 - Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 - Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 - Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 - Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2375E+04 - Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 2.4154E+04 - Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 - Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5856E+06 - # Electric Power Requirements # - Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 - Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 - Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 9.5113E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9589E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.3437E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0438E+01 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.7329E+02 OP - Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 - Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 6.2947E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5803E+01 OP - # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4885E-02 OP - Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 8.5575E-02 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9549E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 5.9854E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 1.9286E-01 OP - Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 - Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 - Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP - Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP - Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 9.5113E+01 OP - # Plant Power / Heat Transport Balance # - Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 - Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 - H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 - First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 - Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 - Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP - Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP - Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6870E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7228E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2414E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9390E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.3234E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9803E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9589E+02 OP - Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 - Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 - Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 - Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 - Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5505E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0647E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 9.5113E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5803E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5466E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 8.6645E+01 - Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 - Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 - TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 - Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.8906E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2334E+03 - Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP - Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 3.0769E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.5840E+01 - Total_(MW)______________________________________________________________ ______________________________ 4.0353E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1497E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2969E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.0796E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 8.6645E+01 - Total_(MW)______________________________________________________________ ______________________________ 4.0352E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6597E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1589E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 8.6645E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.0796E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.7043E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.2333E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8856E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4555E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4629E+02 - Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.6428E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.2334E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 3.4725E+02 - Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.7329E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9589E+02 - Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 - Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 - Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 9.5113E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0438E+01 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 6.7551E-02 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5803E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.9336E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.9336E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.9336E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6597E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1589E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9756E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 3.4725E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3400E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.8906E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9763E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 1.7577E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.0922E+01 - Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 6.1129E-01 - # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6971E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.9115E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8733E+06 OP - # Errors and Warnings # - # Errors and Warnings # - PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 - Final_error_identifier__________________________________________________ (error_id)____________________ 135 - # End of PROCESS Output # - # End of PROCESS Output # - # Copy of PROCESS Input Follows # -************************************************ Once through only: no optimisation -ioptimz = -2 -* Define number of equality constraints, and -* use inequality constraints: corresponding f-values removed -neqns = 3 - -*--------------------------------------------------* - - -*---------------Constraint Equations---------------* - -icc = 1 * Beta -icc = 2 * Global power balance -icc = 11 * Radial build -icc = 5 * Density upper limit -icc = 8 * Neutron wall load upper limit -icc = 9 * Fusion power upper limit -icc = 13 * Burn time lower limit -icc = 15 * LH power threshold limit -icc = 30 * Injection power upper limit -icc = 16 * Net electric power lower limit -icc = 24 * Beta upper limit -icc = 25 * Peak toroidal field upper limit -icc = 26 * Central solenoid EOF current density upper limit -icc = 27 * Central solenoid BOP current density upper limit -icc = 33 * I_op -icc = 34 * Dump voltage upper limit -icc = 35 * J_winding pack -icc = 36 * TF coil temperature margin lower limit -icc = 60 * Central solenoid temperature margin lower limit -icc = 62 * taup -icc = 65 * Dump time set by VV loads -icc = 72 * central solenoid shear stress limit -icc = 81 * Ne -icc = 68 * Psep -icc = 31 * TF coil case stress upper limit -icc = 32 * TF coil conduit stress upper limit - -*---------------Iteration Variables----------------* - -ixc = 2 * bt -ixc = 3 * rmajor -boundl(3) = 8.0 -boundu(3) = 9.0 -ixc = 4 * te -boundu(4) = 100.0 -ixc = 5 * beta -ixc = 6 * dene -ixc = 10 * hfact -boundu(10) = 1.2 -ixc = 13 * tfcth -boundl(13) = 0.7 -ixc = 16 * ohcth -boundl(16) = 0.3 -ixc = 18 * q -boundl(18) = 3.0 -ixc = 29 * bore -boundl(29) = 0.1 -ixc = 37 * coheof -ixc = 41 * fcohbop -ixc = 44 * fvsbrnni -ixc = 56 * tdmptf -ixc = 57 * thkcas -ixc = 58 * thwcndut -boundl(58) = 0.008 -ixc = 59 * fcutfsu -boundl(59) = 0.50 -boundu(59) = 0.94 -ixc = 60 * cpttf -boundl(60) = 65000.0 -boundu(60) = 90000.0 -ixc = 109 * ralpne -boundu(109) = 0.1 -ixc = 122 * oh_steel_frac -ixc = 135 * fimp(13) -ixc = 140 * dr_tf_wp -boundl(140) = 0.4 - -*---------------Cs Fatigue Variables---------------* - - -*------------------- Costs 1990--------------------* - - -*------------------- Costs 2015--------------------* - - -*-----------------Blanket Library------------------* - - -*----------------------Build-----------------------* - - -*-----------------Build Variables------------------* - -blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0069 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.53594 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00064603 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 21679000.0 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.94305 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.49223 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.03261 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.3652 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.8988e+19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.45667 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.188 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.7147 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -ralpne = 0.068358 * thermal alpha density/electron density (`iteration variable 109`) -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.491 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 89837.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.81662 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 17.415 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.29983 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.50496 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.008 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/lt_ineqs_std_IN.DAT b/solution_points/large_tokamak/lt_ineqs_std_IN.DAT deleted file mode 100644 index fe5b56d..0000000 --- a/solution_points/large_tokamak/lt_ineqs_std_IN.DAT +++ /dev/null @@ -1,437 +0,0 @@ - -*--------------------------------------------------* - - -*---------------Constraint Equations---------------* - -icc = 1 * Beta -icc = 2 * Global power balance -icc = 11 * Radial build -icc = 5 * Density upper limit -icc = 8 * Neutron wall load upper limit -icc = 9 * Fusion power upper limit -icc = 13 * Burn time lower limit -icc = 15 * LH power threshold limit -icc = 30 * Injection power upper limit -icc = 16 * Net electric power lower limit -icc = 24 * Beta upper limit -icc = 25 * Peak toroidal field upper limit -icc = 26 * Central solenoid EOF current density upper limit -icc = 27 * Central solenoid BOP current density upper limit -icc = 33 * I_op -icc = 34 * Dump voltage upper limit -icc = 35 * J_winding pack -icc = 36 * TF coil temperature margin lower limit -icc = 60 * Central solenoid temperature margin lower limit -icc = 62 * taup -icc = 65 * Dump time set by VV loads -icc = 72 * central solenoid shear stress limit -icc = 81 * Ne -icc = 68 * Psep -icc = 31 * TF coil case stress upper limit -icc = 32 * TF coil conduit stress upper limit - -*---------------Iteration Variables----------------* - -ixc = 2 * bt -ixc = 3 * rmajor -boundl(3) = 8.0 -boundu(3) = 9.0 -ixc = 4 * te -boundu(4) = 100.0 -ixc = 5 * beta -ixc = 6 * dene -ixc = 10 * hfact -boundu(10) = 1.2 -ixc = 13 * tfcth -boundl(13) = 0.7 -ixc = 16 * ohcth -boundl(16) = 0.3 -ixc = 18 * q -boundl(18) = 3.0 -ixc = 29 * bore -boundl(29) = 0.1 -ixc = 37 * coheof -ixc = 41 * fcohbop -ixc = 44 * fvsbrnni -ixc = 56 * tdmptf -ixc = 57 * thkcas -ixc = 58 * thwcndut -boundl(58) = 0.008 -ixc = 59 * fcutfsu -boundl(59) = 0.50 -boundu(59) = 0.94 -ixc = 60 * cpttf -boundl(60) = 65000.0 -boundu(60) = 90000.0 -ixc = 109 * ralpne -boundu(109) = 0.1 -ixc = 122 * oh_steel_frac -ixc = 135 * fimp(13) -ixc = 140 * dr_tf_wp -boundl(140) = 0.4 - -*---------------Cs Fatigue Variables---------------* - - -*------------------- Costs 1990--------------------* - - -*------------------- Costs 2015--------------------* - - -*-----------------Blanket Library------------------* - - -*----------------------Build-----------------------* - - -*-----------------Build Variables------------------* - -blnkith = 0.7 * inboard blanket thickness (m); (calculated if `blktmodel>0`) (=0;0 if `iblnkith=0`) -blnkoth = 1.0 * outboard blanket thickness (m); calculated if `blktmodel>0` -bore = 2.0 * central solenoid inboard radius (m) (`iteration variable 29`) -ddwex = 0.15 * cryostat thickness (m) -d_vv_in = 0.3 * vacuum vessel inboard thickness (TF coil / shield) (m) -d_vv_out = 0.3 * vacuum vessel outboard thickness (TF coil / shield) (m) -d_vv_top = 0.3 * vacuum vessel topside thickness (TF coil / shield) (m) (= d_vv_bot if double-null) -d_vv_bot = 0.3 * vacuum vessel underside thickness (TF coil / shield) (m) -gapds = 0.02 * gap between inboard vacuum vessel and thermal shield (m) (`iteration variable 61`) -ohcth = 0.5 * Central solenoid thickness (m) (`iteration variable 16`) -scrapli = 0.25 * Gap between plasma and first wall; inboard side (m) (if `iscrp=1`) -scraplo = 0.25 * Gap between plasma and first wall; outboard side (m) (if `iscrp=1`) -shldith = 0.3 * inboard shield thickness (m) (`iteration variable 93`) -shldoth = 0.800 * outboard shield thickness (m) (`iteration variable 94`) -tfcth = 1.2 * inboard TF coil thickness; (centrepost for ST) (m) -thshield_ib = 0.050 * TF-VV thermal shield thickness; inboard (m) -thshield_ob = 0.050 * TF-VV thermal shield thickness; outboard (m) -thshield_vb = 0.050 * TF-VV thermal shield thickness; vertical build (m) -vvblgap = 0.02 * gap between vacuum vessel and blanket (m) - -*---------------Buildings Variables----------------* - - -*-----------------Ccfe Hcpb Module-----------------* - - -*---------------Const And Precisions---------------* - - -*--------------------Constants---------------------* - - -*---------------Constraint Variables---------------* - -bmxlim = 14.0 * maximum peak toroidal field (T) (`constraint equation 25`) -fbetatry = 0.5 * f-value for beta limit (`constraint equation 24`; `iteration variable 36`) -fdene = 1.2 * f-value for density limit (`constraint equation 5`; `iteration variable 9`) -fiooic = 0.65 * f-value for TF coil operating current / critical current ratio -fjohc = 0.6 * f-value for central solenoid current at end-of-flattop -fjohc0 = 0.6 * f-value for central solenoid current at beginning of pulse -fjprot = 1.0 * f-value for TF coil winding pack current density -foh_stress = 1.0 * f-value for Tresca yield criterion in Central Solenoid -fmaxvvstress = 1.0 * f-value for maximum permitted stress of the VV -fvdump = 1.0 * f-value for dump voltage (`constraint equation 34`; `iteration variable 51`) -fwalld = 1.0 * f-value for maximum wall load (`constraint equation 8`; `iteration variable 14`) -pnetelin = 400.0 * required net electric power (MW) (`constraint equation 16`) -powfmax = 3000 * maximum fusion power (MW) (`constraint equation 9`) -psepbqarmax = 10.0 * maximum ratio of Psep*Bt/qAR (MWT/m) (`constraint equation 68`) -tbrnmn = 7200.0 * minimum burn time (s) (KE - no longer itv;; see issue #706) -walalw = 2.0 * allowable neutron wall-load (MW/m2) (`constraint equation 8`) -taulimit = 5.0 * Lower limit on taup/taueff the ratio of alpha particle to energy confinement - -*-------------------Constraints--------------------* - - -*------------------Cost Variables------------------* - -cfactr = 0.80 * Total plant availability fraction; input if `iavail=0` -cost_model = 0 * Switch for cost model; -iavail = 0 * Switch for plant availability model; -output_costs = 1 * Switch for costs output; - -*----------------------Costs-----------------------* - - -*-------------Current Drive Variables--------------* - -bscfmax = 0.95 * maximum fraction of plasma current from bootstrap; if `bscfmax < 0`; -etaech = 0.5 * ECH wall plug to injector efficiency -gamma_ecrh = 0.30 * User input ECRH gamma (1;0e20 A/(W m^2)) -iefrf = 10 * Switch for current drive efficiency model; -pheat = 75.0 * heating power not used for current drive (MW) (`iteration variable 11`) -pinjalw = 200.0 * maximum allowable value for injected power (MW) (`constraint equation 30`) - -*-------------------Dcll Module--------------------* - - -*------------Define Iteration Variables------------* - - -*----------------Divertor Variables----------------* - -divfix = 0.62 * divertor structure vertical thickness (m) - -*------------------Error Handling------------------* - - -*-------------------Final Module-------------------* - - -*-------------------Fson Library-------------------* - - -*-------------------Fson Path M--------------------* - - -*------------------Fson String M-------------------* - - -*-------------------Fson Value M-------------------* - - -*----------------Function Evaluator----------------* - - -*--------------------Fw Module---------------------* - - -*-------------------Fwbs Module--------------------* - - -*------------------Fwbs Variables------------------* - -inuclear = 1 * switch for nuclear heating in the coils; -qnuc = 1.3e4 * nuclear heating in the coils (W) (`inuclear=1`) -primary_pumping = 3 * Switch for pumping power for primary coolant (mechanical power only and peak first wall -secondary_cycle = 2 * Switch for power conversion cycle; -vfshld = 0.60 * coolant void fraction in shield -etaiso = 0.9 * isentropic efficiency of FW and blanket coolant pumps -etahtp = 0.87 * electrical efficiency of primary coolant pumps - -*-----------------Global Variables-----------------* - -runtitle = generic large tokamak * short descriptive title for the run - -*-------------Heat Transport Variables-------------* - -etath = 0.4 * thermal to electric conversion efficiency if `secondary_cycle=2`; otherwise calculated; -ipowerflow = 0 * switch for power flow model; -iprimshld = 1 * Switch for shield thermal power destiny; - -*--------------------Ife Module--------------------* - - -*------------------Ife Variables-------------------* - - -*------------Impurity Radiation Module-------------* - -coreradius = 0.75 * coreradius /0;6/ ; normalised radius defining the 'core' region -coreradiationfraction = 0.6 * coreradiationfraction /1;0/ ; fraction of radiation from 'core' region that is subtracted from the loss power -fimp(1) = 0.9 -fimp(2) = 0.1 -fimp(3) = 0.0 -fimp(4) = 0.0 -fimp(5) = 0.0 -fimp(6) = 0.0 -fimp(7) = 0.0 -fimp(8) = 0.0 -fimp(9) = 0.0 -fimp(10) = 0.0 -fimp(11) = 0.0 -fimp(12) = 0.0 -fimp(13) = 0.00038 -fimp(14) = 5e-06 - -*-------------------Init Module--------------------* - - -*-------------------Main Module--------------------* - - -*------------------Maths Library-------------------* - - -*--------------Neoclassics Constants---------------* - - -*----------------Neoclassics Module----------------* - - -*---------------------Numerics---------------------* - -minmax = 1 * -neqns = 3 * neqns /0/ ; number of equality constraints to be satisfied -epsvmc = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON - -*----------------Pf Power Variables----------------* - - -*------------------Pfcoil Module-------------------* - - -*-----------------Pfcoil Variables-----------------* - -alstroh = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa) -coheof = 1.5e7 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`) -cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A) -fcohbop = 0.9 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top -fcuohsu = 0.70 * copper fraction of strand in central solenoid -ipfloc = 2,2,3,3 * Switch for location of PF coil group i; -isumatoh = 1 * switch for superconductor material in central solenoid; -isumatpf = 3 * switch for superconductor material in PF coils; -ncls = 1,1,2,2 * number of PF coils in group j -ngrp = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group -ohhghf = 0.9 * Central solenoid height / TF coil internal height -oh_steel_frac = 0.8 * central solenoid steel fraction (`iteration variable 122`) -rjconpf = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak -rpf2 = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at -sigpfcf = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`) -zref(1) = 3.6 -zref(2) = 1.2 -zref(3) = 1.0 -zref(4) = 2.8 -zref(5) = 1.0 -zref(6) = 1.0 -zref(7) = 1.0 -zref(8) = 1.0 -zref(9) = 1.0 -zref(10) = 1.0 - -*-------------Physics Functions Module-------------* - - -*------------------Physics Module------------------* - - -*----------------Physics Variables-----------------* - -alphan = 1.00 * density profile index -alphat = 1.45 * temperature profile index -aspect = 3.0 * aspect ratio (`iteration variable 1`) -beta = 0.03 * total plasma beta (`iteration variable 5`) (calculated if stellarator) -bt = 5.7 * toroidal field on axis (T) (`iteration variable 2`) -dene = 7.5e19 * electron density (/m3) (`iteration variable 6`) -dnbeta = 3.0 * Troyon-like coefficient for beta scaling calculated -fgwsep = 0.5 * fraction of Greenwald density to set as separatrix density; If `<0`; separatrix -fkzohm = 1.02 * Zohm elongation scaling adjustment factor (`ishape=2; 3`) -fvsbrnni = 0.4 * fraction of the plasma current produced by non-inductive means (`iteration variable 44`) -gamma = 0.3 * Ejima coefficient for resistive startup V-s formula -hfact = 1.1 * H factor on energy confinement times; radiation corrected (`iteration variable 10`); -ibss = 4 * switch for bootstrap current scaling -iculbl = 1 * switch for beta limit scaling (`constraint equation 24`) -icurr = 4 * switch for plasma current scaling to use -idensl = 7 * switch for density limit to enforce (`constraint equation 5`) -ifalphap = 1 * switch for fast alpha pressure calculation -iinvqd = 1 * switch for inverse quadrature in L-mode scaling laws 5 and 9; -ipedestal = 1 * switch for pedestal profiles; -neped = 0.5e20 * electron density of pedestal [m-3] (`ipedestal==1) -nesep = 0.2e20 * electron density at separatrix [m-3] (`ipedestal==1) -plasma_res_factor = 0.7 * plasma resistivity pre-factor -rhopedn = 0.94 * r/a of density pedestal (`ipedestal==1`) -rhopedt = 0.94 * r/a of temperature pedestal (`ipedestal==1`) -tbeta = 2.0 * temperature profile index beta (`ipedestal==1) -teped = 5.5 * electron temperature of pedestal (keV) (`ipedestal==1; ieped=0; calculated for ieped=1`) -tesep = 0.1 * electron temperature at separatrix (keV) (`ipedestal==1`) calculated if reinke -iprofile = 1 * switch for current profile consistency; -isc = 34 * switch for energy confinement time scaling law (see description in `tauscl`) -ishape = 0 * switch for plasma cross-sectional shape calculation; -kappa = 1.85 * plasma separatrix elongation (calculated if `ishape = 1-5; 7 or 9-10`) -q = 3.5 * Safety factor 'near' plasma edge (`iteration variable 18`) equal to q95 -q0 = 1.0 * safety factor on axis -rmajor = 8.0 * plasma major radius (m) (`iteration variable 3`) -i_single_null = 1 * switch for single null / double null plasma; -ssync = 0.6 * synchrotron wall reflectivity factor -te = 12.0 * volume averaged electron temperature (keV) (`iteration variable 4`) -triang = 0.5 * plasma separatrix triangularity (calculated if `ishape = 1; 3-5 or 7`) - -*----------------------Power-----------------------* - - -*------------Primary Pumping Variables-------------* - - -*------------------Process Input-------------------* - - -*------------------Process Output------------------* - - -*-----------------Profiles Module------------------* - - -*-----------------Pulse Variables------------------* - -lpulse = 1 * Switch for reactor model; - -*-----------------Rebco Variables------------------* - - -*------------------Reinke Module-------------------* - - -*-----------------Reinke Variables-----------------* - - -*---------------Resistive Materials----------------* - - -*-------------------Scan Module--------------------* - - -*-----------------Sctfcoil Module------------------* - - -*----------------Startup Variables-----------------* - - -*------------Stellarator Configuration-------------* - - -*----------------Stellarator Module----------------* - - -*--------------Stellarator Variables---------------* - - -*---------------Structure Variables----------------* - - -*-----------------Tfcoil Variables-----------------* - -sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa) -sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa) -casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators) -casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators) -cpttf = 65000.0 * TF coil current per turn (A); (calculated for stellarators) (calculated for -dhecoil = 0.01 * diameter of central helium channel in TF winding (m) -fcutfsu = 0.8 * copper fraction of cable conductor (TF coils) -i_tf_sc_mat = 1 * Switch for superconductor material in TF coils; -ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge (%) -tdmptf = 25.0 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`) -n_tf = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST -tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K) -thkcas = 0.5 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`) -dr_tf_wp = 0.5 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514) -thwcndut = 0.008 * TF coil conduit case thickness (m) (`iteration variable 58`) -tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m) -tmargmin_cs = 1.5 * minimum allowable temperature margin ; CS (K) -tmargmin = 1.5 * minimum allowable temperature margin ; TFC AND CS (K) -vdalw = 10.0 * max voltage across TF coil during quench (kV) (`iteration variable 52`) -vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`) - -*-----------------Times Variables------------------* - -pulsetimings = 0 * Switch for pulse timings (if lpulse=1); -tdwell = 1800.0 * time between pulses in a pulsed reactor (s) (`iteration variable 17`) -tramp = 500.0 * initial PF coil charge time (s); if pulsed; = tohs - -*--------------------Utilities---------------------* - - -*-----------------Vacuum Variables-----------------* - - -*--------------Water Usage Variables---------------* - diff --git a/solution_points/large_tokamak/constraint_residuals.csv b/studies/constraint_residuals.csv similarity index 100% rename from solution_points/large_tokamak/constraint_residuals.csv rename to studies/constraint_residuals.csv diff --git a/solution_points/large_tokamak/lt_feas_non_opt.ipynb b/studies/lt_feas_non_opt_sol.ipynb similarity index 99% rename from solution_points/large_tokamak/lt_feas_non_opt.ipynb rename to studies/lt_feas_non_opt_sol.ipynb index 99845f9..c39097b 100644 --- a/solution_points/large_tokamak/lt_feas_non_opt.ipynb +++ b/studies/lt_feas_non_opt_sol.ipynb @@ -4,7 +4,9 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "# Convert LT to inequality problem, then get feasible solution within uncertain bounds" + "# Obtaining feasible non-optimised solutions\n", + "\n", + "Convert LT to inequality problem, run optimisation to get solution vector. Then run non-optimising input at solution vector to produce a response. This response should be identical to the optimised case and also feasible." ] }, { diff --git a/tools/prep_sol_for_ra.ipynb b/tools/prep_sol_for_ra.ipynb new file mode 100644 index 0000000..3c7d79a --- /dev/null +++ b/tools/prep_sol_for_ra.ipynb @@ -0,0 +1,351 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Prepare Process Solution for Reliability Analysis\n", + "\n", + "Convert IN.DAT to inequality problem then run it. Take the solution vector from the MFILE.DAT and copy it back into the original inequality IN.DAT, but make it a \"once-through\" (non-optimising) input. This input file is then prepared for RA at the solution vector." + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "%load_ext autoreload\n", + "%autoreload 2\n", + "from infeas.mfile_to_in import convert\n", + "import subprocess" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Convert original input file to inequalities\n", + "\n", + "Take original LT IN.DAT (`lt_orig_IN.DAT`). Convert it to an inequalities input file (`lt_ineqs_IN.DAT`), maintaining any f-value initialisations." + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "f-values removed as optimisation parameters = 22\n" + ] + }, + { + "data": { + "text/plain": [ + "'lt_ineqs_before_conv_crit_mod_IN.DAT'" + ] + }, + "execution_count": 2, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "original_in_name = \"lt_orig_IN.DAT\"\n", + "ineqs_in_name = \"lt_ineqs_before_conv_crit_mod_IN.DAT\"\n", + "\n", + "convert(\n", + " original_in_name=original_in_name,\n", + " new_in_name=ineqs_in_name,\n", + " no_optimisation=False,\n", + " n_equalities=3,\n", + " remove_f_value_inits=False,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Now run with VMCON. Result is inequality-solved solution." + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " The total number of constraints is counted automatically and does not need to be stated in IN.DAT.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.1.0 Release Date :: 2024-03-21\n", + " Tag No. : code contains untracked changes\n", + " Branch : six-model-evals\n", + " Git log : Merge branch |ukaea:main| into six-model-evals\n", + " Date/time : 9 Apr 2024 13:54:32 +01:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_before_conv_crit_mod_IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_before_conv_crit_mod_IN.DAT\n", + " Run title : Generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 03\n", + " Inequality constraints : 23\n", + " Total constraints : 26\n", + " Iteration variables : 22\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_before_conv_crit_mod_IN.DAT\n", + "This is longer than 110 columns.\n", + "13 | Convergence Parameter: 1.086E-08\n", + " \n", + " ************************************* PROCESS found a feasible solution **************************************\n", + " \n", + " Warning in routine OCMMNT :\n", + "Triple product = Vol-average electron density x Vol-average & electron temperature x Energy confinement time:\n", + "This is longer than 110 columns.\n", + " \n", + " ******************************************** Errors and Warnings *********************************************\n", + " \n", + " PROCESS status flag: Warning messages \n", + " \n", + " ID LEVEL MESSAGE\n", + "150 2 CHECK: Lower limit of volume averaged electron temperature (te) has been raised \n", + " \n", + "244 2 PHYSICS: Diamagnetic fraction is more than 1%, but not calculated. Consider usin\n", + " \n", + " \n", + " ******************************************* End of PROCESS Output ********************************************\n", + " \n" + ] + }, + { + "data": { + "text/plain": [ + "CompletedProcess(args=['process', '-i', 'lt_ineqs_before_conv_crit_mod_IN.DAT'], returncode=0)" + ] + }, + "execution_count": 3, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "subprocess.run([\"process\", \"-i\", ineqs_in_name])" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "CompletedProcess(args='rm *SIG_TF.json *OUT.DAT', returncode=0)" + ] + }, + "execution_count": 4, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# Remove unwanted outputs\n", + "subprocess.run(\"rm *SIG_TF.json *OUT.DAT\", shell=True)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "\n", + "## Create once-through input file from solution point for UQ studies\n", + "\n", + "Use the solution vector to create a once-through (non-optimising) input file for UQ studies." + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Optimisation parameter f-values ignored = 0\n", + "f-values removed as optimisation parameters = 0\n" + ] + }, + { + "data": { + "text/plain": [ + "PosixPath('lt_ineqs_before_conv_crit_mod_sol_IN.DAT')" + ] + }, + "execution_count": 5, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "input_name_stem = ineqs_in_name.split(\"_IN.DAT\")[0]\n", + "mfile_name = input_name_stem + \"_MFILE.DAT\"\n", + "sol_in_name = input_name_stem + \"_sol_IN.DAT\"\n", + "\n", + "convert(\n", + " original_in_name=ineqs_in_name,\n", + " mfile_name=mfile_name,\n", + " new_in_name=sol_in_name,\n", + " no_optimisation=True,\n", + " n_equalities=3,\n", + " remove_f_value_inits=False,\n", + ")" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Optionally run the solution vector once-through IN.DAT." + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The IN.DAT file does not contain any obsolete variables.\n", + " The total number of constraints is counted automatically and does not need to be stated in IN.DAT.\n", + " The total number of constraints is counted automatically and does not need to be stated in IN.DAT.\n", + " tmargmin_cs and tmargmin should not both be specified in IN.DAT.\n", + " tmargmin_cs has been ignored.\n", + " \n", + " **************************************************************************************************************\n", + " ************************************************** PROCESS ***************************************************\n", + " ************************************** Power Reactor Optimisation Code ***************************************\n", + " **************************************************************************************************************\n", + " \n", + " Program :\n", + " Version : 3.1.0 Release Date :: 2024-03-21\n", + " Tag No. : code contains untracked changes\n", + " Branch : six-model-evals\n", + " Git log : Merge branch |ukaea:main| into six-model-evals\n", + " Date/time : 9 Apr 2024 13:56:22 +01:00(hh:mm) UTC\n", + " User : jon\n", + " Computer : jon-Precision-3560\n", + " Directory : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_before_conv_crit_mod_sol_IN.DAT\n", + "This is longer than 110 columns.\n", + " Input : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_before_conv_crit_mod_sol_IN.DAT\n", + " Run title : generic large tokamak\n", + " Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE\n", + " \n", + " **************************************************************************************************************\n", + " \n", + " Equality constraints : 03\n", + " Inequality constraints : 23\n", + " Total constraints : 26\n", + " Iteration variables : 22\n", + " Max iterations : 200\n", + " Figure of merit : +01 -- minimise major radius.\n", + " Convergence parameter : 1.00E-07\n", + " \n", + " **************************************************************************************************************\n", + " Warning in routine OCMMNT :\n", + " Input : /home/jon/code/easyVVUQ-process/solution_points/large_tokamak/lt_ineqs_before_conv_crit_mod_sol_IN.DAT\n", + "This is longer than 110 columns.\n", + " Warning in routine OCMMNT :\n", + "Triple product = Vol-average electron density x Vol-average & electron temperature x Energy confinement time:\n", + "This is longer than 110 columns.\n", + " \n", + " ******************************************** Errors and Warnings *********************************************\n", + " \n", + " PROCESS status flag: Warning messages \n", + " \n", + " ID LEVEL MESSAGE\n", + "244 2 PHYSICS: Diamagnetic fraction is more than 1%, but not calculated. Consider usin\n", + " \n", + " \n", + " ******************************************* End of PROCESS Output ********************************************\n", + " \n" + ] + }, + { + "data": { + "text/plain": [ + "CompletedProcess(args='rm *SIG_TF.json *OUT.DAT', returncode=0)" + ] + }, + "execution_count": 6, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "subprocess.run([\"process\", \"-i\", sol_in_name])\n", + "# Remove unwanted outputs\n", + "subprocess.run(\"rm *SIG_TF.json *OUT.DAT\", shell=True)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Could extend to convert solution IN.DAT to template for UQ." + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "easyVVUQ-process", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.10.9" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/solution_points/large_tokamak/standardise_input.ipynb b/tools/standardise_input.ipynb similarity index 100% rename from solution_points/large_tokamak/standardise_input.ipynb rename to tools/standardise_input.ipynb