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DREAM: Deep Regret minimization with Advantage baselines and Model-free learning.

A scalable implementation of DREAM [1]. DREAM is the state-of-the-art (June 2020) in multi-agent model-free Deep RL [1]. Here are two graphs showing how fast various model-free algorithms converge in the poker games Flop Hold'em Poker (FHP) and Leduc:

DREAM_Convergence

Also includes implementations of Single Deep CFR (SD-CFR) [2], Deep CFR [3], and Neural Fictitious Self-Play (NFSP) [4] in the PokerRL framework.

This codebase is designed for:

  • Researchers to compare new methods to these baselines.
  • Anyone wanting to learn about Deep RL in imperfect information games.
  • Reproducability of results from our papers.

This implementation seamlessly scales from your local machine to hundreds of cores on AWS.

Reproducing Results from DREAM (Steinberger et al. 2020) [1]

The run-script in the root directory of this repo each launch experiments as those presented in the paper. We ran experiments in Leduc using one core per run on c5.9xlarge machines (i.e. many experiments on one machine in parallel) and used one c5.24xlarge machines for three runs in FHP. We set the instance up for distributed runs as explained in PokerRL. Once started, results can be observed at INSTANCE_IP:8888 in your browser.

VERY IMPORTANT NOTES:

  • This implementation defines an iteration as one sequential update for BOTH players. Thus, iteration 300 in the SD-CFR paper [2] is equivalent to iteration 150 in the Tensorboard logs!
  • Results on iteration 0 have no meaning since they compare a random neural network to an exactly uniform strategy.

DREAM on your Local Machine

Install locally

This codebase only supports Linux officially (Mac has not been tested).

First, please install Docker and download the PyCrayon container. For dependency management we recommend Miniconda. To install the dependencies, simply activate your conda environment and then pip install -r requirements.txt.

Running experiments locally

Before starting any algorithm, please spin up the log server by

docker run -d -p 8888:8888 -p 8889:8889 --name crayon alband/crayon
docker start crayon

You can now view logs at localhost:8888 in your browser. To run DREAM, Deep CFR or SD-CFR with custom hyperparameters in any Poker game supported by PokerRL, build a script similar to the ones in the root directory of this repo. Run-scripts define the hyperparameters, the game to be played, and the evaluation metrics.

Note that you can specify one or both averaging methods under eval_modes_of_algo. "Single" is the method introduced in [2] and also used in DREAM, and "AVG_NET" is the method used by Deep CFR [3]. Single is generally better [2]. We showed in [2] that SD-CFR is expected to perform better, is faster, and requires less memory.

Cloud & Clusters

For deployment on AWS, whether single-core, many-core distributed, or on a cluster, please first follow the tutorial in the corresponding section of PokerRL's README.

We recommend forking this repository so you can write your own scripts but still have remote access through git. In your run-script set either the DISTRIBUTED or the CLUSTER option of the TrainingProfile to True. Moreover, you should specify the number of LearnerActor and evaluator workers (if applicable) you want to deploy. Note that hyperparmeters ending with "_per_la" (e.g. the batch size) are effectively multiplied by the number of workers.

When running in DISTRIBUTED mode (i.e. one machine, many cores), simply ssh onto your AWS instance, get your code onto it (e.g. through git cloning your forked repo) and start your run-script. To fire up a cluster, define a .yaml cluster configuration that properly sets up your workers. Each of them should have a copy of your forked repo as well as all dependencies on it. Use ray up ... in an ssh session to the head of the cluster to start the job - more detailed instructions about the underlying framework we use for distributed computing can be found at ray.

Citing

If you use this repository in your research, you can cite it by citing PokerRL as follows:

@misc{steinberger2019pokerrl,
    author = {Eric Steinberger},
    title = {PokerRL},
    year = {2019},
    publisher = {GitHub},
    journal = {GitHub repository},
    howpublished = {\url{https://github.com/TinkeringCode/PokerRL}},
}

Code Authors

License

This project is licensed under the MIT License - see the LICENSE file for details.

References

[1] Steinberger, Lerer, Brown. "DREAM: Deep Regret minimization with Advantage baselines and Model-free learning." arXiv preprint https://arxiv.org/abs/2006.10410 (2020).

[2] Steinberger, Eric. "Single Deep Counterfactual Regret Minimization." arXiv preprint arXiv:1901.07621 (2019).

[3] Brown, Noam, et al. "Deep Counterfactual Regret Minimization." ICML. 2019.

[4] Heinrich, Johannes, and David Silver. "Deep reinforcement learning from self-play in imperfect-information games." arXiv preprint arXiv:1603.01121 (2016).