EGG is a toolkit that allows researchers to quickly implement multi-agent games with discrete channel communication. In such games, the agents are trained to communicate with each other and jointly solve a task. Often, the way they communicate is not explicitly determined, allowing agents to come up with their own 'language' in order to solve the task. Such setup opens a plethora of possibilities in studying emergent language and the impact of the nature of task being solved, the agents' models, etc. This subject is a vibrant area of research often considered as a prerequisite for general AI. The purpose of EGG is to offer researchers an easy and fast entry point into this research area.
EGG is based on PyTorch and provides: (a) simple, yet powerful components for implementing communication between agents, (b) a diverse set of pre-implemented games, (c) an interface to analyse the emergent communication protocols.
Key features:
- Primitives for implementing a single-symbol or variable-length communication (with vanilla RNNs, GRUs, LSTMs or Transformers);
- Training with optimization of the communication channel with REINFORCE or Gumbel-Softmax relaxation via a common interface;
- Simplified configuration of the general components, such as checkpointing, optimization, tensorboard support, etc;
- Provides a simple CUDA-aware command-line tool for grid-search over parameters of the games.
To fully leverage EGG one would need at least a high-level familiarity with PyTorch. However, to get a taste of communication games without writing any code, you could try a dataset-based game, which allow you to experiment with different signaling games by simply editing input files.
List of example and tutorial games
-
MNIST autoencoder tutorial
: A Jupyter tutorial that implements a MNIST discrete auto-encoder step-by-step, covering the basic concepts of EGG. The tutorial starts with pre-training a "vision" module and builds single- and multiple symbol auto-encoder communication games with channel optimization done by Reinforce and Gumbel-Softmax relaxation (notebook / colab). -
egg/zoo/basic_games
: Simple implementations of reconstruction and discrimination games, taking their inputs from text files, and with thoroughly annotated code. These might be a good starting point to learn to play with EGG. -
egg/zoo/signal_game
: Modern version of a Lewis' signaling game. In this game, Sender is presented with a target image and with one or more distractor images. Then all images are shuffled and Receiver has to point to the target image based on a message from Sender. This implementation is based on Diane Bouchacourt's code. -
egg/zoo/simple_autoenc
: Discrete auto-encoder Sender/Receiver game that auto-encodes one-hot vectors using variable-length messages. -
egg/zoo/mnist_autoenc
: Discrete MNIST auto-encoder game. In this Sender/Receiver game, Sender looks onto a MNIST image and sends a single symbol to Receiver, who tries to recover the image. -
egg/zoo/mnist_vae
: Continuous-message VAE cast as an auto-encoder game. In this Sender/Receiver (Encoder/Decoder) game, Sender looks onto a MNIST image and sends a multi-dimensional vector to Receiver, who tries to recover the image. -
egg/zoo/summation
: Sender and Receiver are jointly trained to recognize thea^nb^n
grammar: Sender reads an input sequence and Receiver answers if the sequence belongs to the grammar. Which agent actually counts, Sender or Receiver? Does Sender make the decision and send it to Receiver? Or does Sender encode the incoming sequence in the message and it is Receiver that make the decision? Or something in-between? -
egg/zoo/external_game
: A signaling game that takes inputs and ground-truth outputs from CSV files.
Games used in published work
-
egg/zoo/channel
: Anti-efficient encoding in emergent communication. Rahma Chaabouni, Eugene Kharitonov, Emmanuel Dupoux, Marco Baroni. NeurIPS 2019. -
egg/zoo/objects_game
: Focus on What’s Informative and Ignore What’s not: Communication Strategies in a Referential Game. Roberto Dessì, Diane Bouchacourt, Davide Crepaldi, Marco Baroni. NeurIPS Workshop on Emergent Communication 2019. A Sender/Receiver game where the Sender sees a target as a vector of discrete properties (e.g. [2, 4, 3, 1] for a game with 4 dimensions) and the Receiver has to recognize the target among a lineup of target+distractor(s). -
egg/zoo/compo_vs_generalization
Compositionality and Generalization in Emergent Languages. Rahma Chaabouni, Eugene Kharitonov, Diane Bouchacourt, Emmanuel Dupoux, Marco Baroni. ACL 2020. -
egg/zoo/language_bottleneck
Entropy Minimization In Emergent Languages. Eugene Kharitonov, Rahma Chaabouni, Diane Bouchacourt, Marco Baroni. ICML 2020.egg/zoo/language_bottleneck
contains a set of games that study the information bottleneck property of the discrete communication channel. This poperty is illustrated in an EGG-based example of MNIST-based style transfer without an adversary (notebook / colab).
We are adding games all the time: please look at the egg/zoo
directory to see what is available right now. Submit an issue if there is something you want to have implemented and included.
More details on each game's command line parameters are provided in the games' directories.
EGG supports Reinforce and Gumbel-Softmax optimization of the communication channel. Currently, Gumbel-Softmax-based optimization is only supported if the game loss is differentiable. The MNIST autoencoder game tutorial illustrates both Reinforce and Gumbel-Softmax channel optimization when using a differentiable game loss. The signaling game has a non-differentiable game loss, and the communication channel is optimized with Reinforce.
Generally, we assume that you use PyTorch 1.1.0 or newer and Python 3.6 or newer.
- (optional) It is a good idea to develop in a new conda environment, e.g. like this:
conda create --name egg36 python=3.6 conda activate egg36
- EGG can be installed as a package to be used as a library
or via https
pip install git+ssh://[email protected]/facebookresearch/EGG.git
Alternatively, EGG can be cloned and installed in editable mode, so that the copy can be changed:pip install git+https://github.com/facebookresearch/EGG.git
git clone [email protected]:facebookresearch/EGG.git && cd EGG pip install --editable .
- Then, we can run a game, e.g. the MNIST auto-encoding game:
python -m egg.zoo.mnist_autoenc.train --vocab=10 --n_epochs=50
The repo is organised as follows:
- tests # tests for the common components
- docs # documentation for EGG
- egg
-- core # common components: trainer, wrappers, games, utilities, ...
-- zoo # pre-implemented games
-- nest # a tool for hyperparameter grid search
- The step-by-step
MNIST autoencoder tutorial
goes over all essential steps to create a full-featured communication game with variable length messages between the agents. NB: depending on your computational resources, this might take a while to run! (open in colab) - The simplest starter code is in
egg/zoo/basic_games
, providing implementations of basic reconstruction and discrimination games. Input can be provided through text files, and the code is thoroughly commented. - Another good starting point to implement a Sender/Receiver game is the MNIST autoencoder game, MNIST auto-encoder game. The game features both Gumbel-Softmax and Reinforce-based implementations.
- EGG provides some utility boilerplate around commonly used command line parameters. Documentation about using it can be found here.
- A brief how-to for tensorboard is here.
- To learn more about the provided hyperparameter search tool, read this doc.
- Our paper provides a high-level view of the toolkit and points to further resources.
If you find EGG useful in your research, please cite:
@inproceedings{Kharitonov2019Egg,
title = "{EGG}: a toolkit for research on {E}mergence of lan{G}uage in {G}ames",
author = "Kharitonov, Eugene and
Chaabouni, Rahma and
Bouchacourt, Diane and
Baroni, Marco",
booktitle = "Proceedings of the 2019 Conference on Empirical Methods in Natural Language Processing and the 9th International Joint Conference on Natural Language Processing (EMNLP-IJCNLP): System Demonstrations",
year = "2019",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/D19-3010",
doi = "10.18653/v1/D19-3010"
}
Please read the contribution guide.
Run pytest:
python -m pytest
All tests should pass.
EGG is licensed under the MIT license. The text of the license can be found here.