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train.py
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train.py
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#!/usr/bin/env python
import argparse
import pathlib
import time
try:
import apex
except ImportError:
pass
import numpy as np
import torch
import torch.nn as nn
import torch.distributed as dist
import torchvision
from fvcore.common.checkpoint import Checkpointer
from pytorch_image_classification import (
apply_data_parallel_wrapper,
create_dataloader,
create_loss,
create_model,
create_optimizer,
create_scheduler,
get_default_config,
update_config,
)
from pytorch_image_classification.config.config_node import ConfigNode
from pytorch_image_classification.utils import (
AverageMeter,
DummyWriter,
compute_accuracy,
count_op,
create_logger,
create_tensorboard_writer,
find_config_diff,
get_env_info,
get_rank,
save_config,
set_seed,
setup_cudnn,
)
global_step = 0
def load_config():
parser = argparse.ArgumentParser()
parser.add_argument('--config', type=str)
parser.add_argument('--resume', type=str, default='')
parser.add_argument('--local_rank', type=int, default=0)
parser.add_argument('options', default=None, nargs=argparse.REMAINDER)
args = parser.parse_args()
config = get_default_config()
if args.config is not None:
config.merge_from_file(args.config)
config.merge_from_list(args.options)
if not torch.cuda.is_available():
config.device = 'cpu'
config.train.dataloader.pin_memory = False
if args.resume != '':
config_path = pathlib.Path(args.resume) / 'config.yaml'
config.merge_from_file(config_path.as_posix())
config.merge_from_list(['train.resume', True])
config.merge_from_list(['train.dist.local_rank', args.local_rank])
config = update_config(config)
config.freeze()
return config
def subdivide_batch(config, data, targets):
subdivision = config.train.subdivision
if subdivision == 1:
return [data], [targets]
data_chunks = data.chunk(subdivision)
if config.augmentation.use_mixup or config.augmentation.use_cutmix:
targets1, targets2, lam = targets
target_chunks = [(chunk1, chunk2, lam) for chunk1, chunk2 in zip(
targets1.chunk(subdivision), targets2.chunk(subdivision))]
elif config.augmentation.use_ricap:
target_list, weights = targets
target_list_chunks = list(
zip(*[target.chunk(subdivision) for target in target_list]))
target_chunks = [(chunk, weights) for chunk in target_list_chunks]
else:
target_chunks = targets.chunk(subdivision)
return data_chunks, target_chunks
def send_targets_to_device(config, targets, device):
if config.augmentation.use_mixup or config.augmentation.use_cutmix:
t1, t2, lam = targets
targets = (t1.to(device), t2.to(device), lam)
elif config.augmentation.use_ricap:
labels, weights = targets
labels = [label.to(device) for label in labels]
targets = (labels, weights)
else:
targets = targets.to(device)
return targets
def train(epoch, config, model, optimizer, scheduler, loss_func, train_loader,
logger, tensorboard_writer, tensorboard_writer2):
global global_step
logger.info(f'Train {epoch} {global_step}')
device = torch.device(config.device)
model.train()
loss_meter = AverageMeter()
acc1_meter = AverageMeter()
acc5_meter = AverageMeter()
start = time.time()
for step, (data, targets) in enumerate(train_loader):
step += 1
global_step += 1
if get_rank() == 0 and step == 1:
if config.tensorboard.train_images:
image = torchvision.utils.make_grid(data,
normalize=True,
scale_each=True)
tensorboard_writer.add_image('Train/Image', image, epoch)
data = data.to(device,
non_blocking=config.train.dataloader.non_blocking)
targets = send_targets_to_device(config, targets, device)
data_chunks, target_chunks = subdivide_batch(config, data, targets)
optimizer.zero_grad()
outputs = []
losses = []
for data_chunk, target_chunk in zip(data_chunks, target_chunks):
if config.augmentation.use_dual_cutout:
w = data_chunk.size(3) // 2
data1 = data_chunk[:, :, :, :w]
data2 = data_chunk[:, :, :, w:]
outputs1 = model(data1)
outputs2 = model(data2)
output_chunk = torch.cat(
(outputs1.unsqueeze(1), outputs2.unsqueeze(1)), dim=1)
else:
output_chunk = model(data_chunk)
outputs.append(output_chunk)
loss = loss_func(output_chunk, target_chunk)
losses.append(loss)
if config.device != 'cpu' and config.train.use_apex:
with apex.amp.scale_loss(loss, optimizer) as scaled_loss:
scaled_loss.backward()
else:
loss.backward()
outputs = torch.cat(outputs)
if config.train.gradient_clip > 0:
if config.device != 'cpu' and config.train.use_apex:
torch.nn.utils.clip_grad_norm_(
apex.amp.master_params(optimizer),
config.train.gradient_clip)
else:
torch.nn.utils.clip_grad_norm_(model.parameters(),
config.train.gradient_clip)
if config.train.subdivision > 1:
for param in model.parameters():
param.grad.data.div_(config.train.subdivision)
optimizer.step()
acc1, acc5 = compute_accuracy(config,
outputs,
targets,
augmentation=True,
topk=(1, 5))
loss = sum(losses)
if config.train.distributed:
loss_all_reduce = dist.all_reduce(loss,
op=dist.ReduceOp.SUM,
async_op=True)
acc1_all_reduce = dist.all_reduce(acc1,
op=dist.ReduceOp.SUM,
async_op=True)
acc5_all_reduce = dist.all_reduce(acc5,
op=dist.ReduceOp.SUM,
async_op=True)
loss_all_reduce.wait()
acc1_all_reduce.wait()
acc5_all_reduce.wait()
loss.div_(dist.get_world_size())
acc1.div_(dist.get_world_size())
acc5.div_(dist.get_world_size())
loss = loss.item()
acc1 = acc1.item()
acc5 = acc5.item()
num = data.size(0)
loss_meter.update(loss, num)
acc1_meter.update(acc1, num)
acc5_meter.update(acc5, num)
if torch.cuda.is_available():
torch.cuda.synchronize()
if get_rank() == 0:
if step % config.train.log_period == 0 or step == len(
train_loader):
logger.info(
f'Epoch {epoch} '
f'Step {step}/{len(train_loader)} '
f'lr {scheduler.get_last_lr()[0]:.6f} '
f'loss {loss_meter.val:.4f} ({loss_meter.avg:.4f}) '
f'acc@1 {acc1_meter.val:.4f} ({acc1_meter.avg:.4f}) '
f'acc@5 {acc5_meter.val:.4f} ({acc5_meter.avg:.4f})')
tensorboard_writer2.add_scalar('Train/RunningLoss',
loss_meter.avg, global_step)
tensorboard_writer2.add_scalar('Train/RunningAcc1',
acc1_meter.avg, global_step)
tensorboard_writer2.add_scalar('Train/RunningAcc5',
acc5_meter.avg, global_step)
tensorboard_writer2.add_scalar('Train/RunningLearningRate',
scheduler.get_last_lr()[0],
global_step)
scheduler.step()
if get_rank() == 0:
elapsed = time.time() - start
logger.info(f'Elapsed {elapsed:.2f}')
tensorboard_writer.add_scalar('Train/Loss', loss_meter.avg, epoch)
tensorboard_writer.add_scalar('Train/Acc1', acc1_meter.avg, epoch)
tensorboard_writer.add_scalar('Train/Acc5', acc5_meter.avg, epoch)
tensorboard_writer.add_scalar('Train/Time', elapsed, epoch)
tensorboard_writer.add_scalar('Train/LearningRate',
scheduler.get_last_lr()[0], epoch)
def validate(epoch, config, model, loss_func, val_loader, logger,
tensorboard_writer):
logger.info(f'Val {epoch}')
device = torch.device(config.device)
model.eval()
loss_meter = AverageMeter()
acc1_meter = AverageMeter()
acc5_meter = AverageMeter()
start = time.time()
with torch.no_grad():
for step, (data, targets) in enumerate(val_loader):
if get_rank() == 0:
if config.tensorboard.val_images:
if epoch == 0 and step == 0:
image = torchvision.utils.make_grid(data,
normalize=True,
scale_each=True)
tensorboard_writer.add_image('Val/Image', image, epoch)
data = data.to(
device, non_blocking=config.validation.dataloader.non_blocking)
targets = targets.to(device)
outputs = model(data)
loss = loss_func(outputs, targets)
acc1, acc5 = compute_accuracy(config,
outputs,
targets,
augmentation=False,
topk=(1, 5))
if config.train.distributed:
loss_all_reduce = dist.all_reduce(loss,
op=dist.ReduceOp.SUM,
async_op=True)
acc1_all_reduce = dist.all_reduce(acc1,
op=dist.ReduceOp.SUM,
async_op=True)
acc5_all_reduce = dist.all_reduce(acc5,
op=dist.ReduceOp.SUM,
async_op=True)
loss_all_reduce.wait()
acc1_all_reduce.wait()
acc5_all_reduce.wait()
loss.div_(dist.get_world_size())
acc1.div_(dist.get_world_size())
acc5.div_(dist.get_world_size())
loss = loss.item()
acc1 = acc1.item()
acc5 = acc5.item()
num = data.size(0)
loss_meter.update(loss, num)
acc1_meter.update(acc1, num)
acc5_meter.update(acc5, num)
if torch.cuda.is_available():
torch.cuda.synchronize()
logger.info(f'Epoch {epoch} '
f'loss {loss_meter.avg:.4f} '
f'acc@1 {acc1_meter.avg:.4f} '
f'acc@5 {acc5_meter.avg:.4f}')
elapsed = time.time() - start
logger.info(f'Elapsed {elapsed:.2f}')
if get_rank() == 0:
if epoch > 0:
tensorboard_writer.add_scalar('Val/Loss', loss_meter.avg, epoch)
tensorboard_writer.add_scalar('Val/Acc1', acc1_meter.avg, epoch)
tensorboard_writer.add_scalar('Val/Acc5', acc5_meter.avg, epoch)
tensorboard_writer.add_scalar('Val/Time', elapsed, epoch)
if config.tensorboard.model_params:
for name, param in model.named_parameters():
tensorboard_writer.add_histogram(name, param, epoch)
def main():
global global_step
config = load_config()
set_seed(config)
setup_cudnn(config)
epoch_seeds = np.random.randint(np.iinfo(np.int32).max // 2,
size=config.scheduler.epochs)
if config.train.distributed:
dist.init_process_group(backend=config.train.dist.backend,
init_method=config.train.dist.init_method,
rank=config.train.dist.node_rank,
world_size=config.train.dist.world_size)
torch.cuda.set_device(config.train.dist.local_rank)
output_dir = pathlib.Path(config.train.output_dir)
if get_rank() == 0:
if not config.train.resume and output_dir.exists():
raise RuntimeError(
f'Output directory `{output_dir.as_posix()}` already exists')
output_dir.mkdir(exist_ok=True, parents=True)
if not config.train.resume:
save_config(config, output_dir / 'config.yaml')
save_config(get_env_info(config), output_dir / 'env.yaml')
diff = find_config_diff(config)
if diff is not None:
save_config(diff, output_dir / 'config_min.yaml')
logger = create_logger(name=__name__,
distributed_rank=get_rank(),
output_dir=output_dir,
filename='log.txt')
logger.info(config)
logger.info(get_env_info(config))
train_loader, val_loader = create_dataloader(config, is_train=True)
model = create_model(config)
macs, n_params = count_op(config, model)
logger.info(f'MACs : {macs}')
logger.info(f'#params: {n_params}')
optimizer = create_optimizer(config, model)
if config.device != 'cpu' and config.train.use_apex:
model, optimizer = apex.amp.initialize(
model, optimizer, opt_level=config.train.precision)
model = apply_data_parallel_wrapper(config, model)
scheduler = create_scheduler(config,
optimizer,
steps_per_epoch=len(train_loader))
checkpointer = Checkpointer(model,
optimizer=optimizer,
scheduler=scheduler,
save_dir=output_dir,
save_to_disk=get_rank() == 0)
start_epoch = config.train.start_epoch
scheduler.last_epoch = start_epoch
if config.train.resume:
checkpoint_config = checkpointer.resume_or_load('', resume=True)
global_step = checkpoint_config['global_step']
start_epoch = checkpoint_config['epoch']
config.defrost()
config.merge_from_other_cfg(ConfigNode(checkpoint_config['config']))
config.freeze()
elif config.train.checkpoint != '':
checkpoint = torch.load(config.train.checkpoint, map_location='cpu')
if isinstance(model,
(nn.DataParallel, nn.parallel.DistributedDataParallel)):
model.module.load_state_dict(checkpoint['model'])
else:
model.load_state_dict(checkpoint['model'])
if get_rank() == 0 and config.train.use_tensorboard:
tensorboard_writer = create_tensorboard_writer(
config, output_dir, purge_step=config.train.start_epoch + 1)
tensorboard_writer2 = create_tensorboard_writer(
config, output_dir / 'running', purge_step=global_step + 1)
else:
tensorboard_writer = DummyWriter()
tensorboard_writer2 = DummyWriter()
train_loss, val_loss = create_loss(config)
if (config.train.val_period > 0 and start_epoch == 0
and config.train.val_first):
validate(0, config, model, val_loss, val_loader, logger,
tensorboard_writer)
for epoch, seed in enumerate(epoch_seeds[start_epoch:], start_epoch):
epoch += 1
np.random.seed(seed)
train(epoch, config, model, optimizer, scheduler, train_loss,
train_loader, logger, tensorboard_writer, tensorboard_writer2)
if config.train.val_period > 0 and (epoch % config.train.val_period
== 0):
validate(epoch, config, model, val_loss, val_loader, logger,
tensorboard_writer)
tensorboard_writer.flush()
tensorboard_writer2.flush()
if (epoch % config.train.checkpoint_period
== 0) or (epoch == config.scheduler.epochs):
checkpoint_config = {
'epoch': epoch,
'global_step': global_step,
'config': config.as_dict(),
}
checkpointer.save(f'checkpoint_{epoch:05d}', **checkpoint_config)
tensorboard_writer.close()
tensorboard_writer2.close()
if __name__ == '__main__':
main()