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MARLlib: A Scalable and Efficient Multi-agent Reinforcement Learning Library
News: We are excited to announce that a major update has just been released. For detailed version information, please refer to the version info.
Multi-agent Reinforcement Learning Library (MARLlib) is a MARL library that utilizes Ray and one of its toolkits RLlib. It offers a comprehensive platform for developing, training, and testing MARL algorithms across various tasks and environments.
Here's an example of how MARLlib can be used:
from marllib import marl
# prepare env
env = marl.make_env(environment_name="mpe", map_name="simple_spread")
# initialize algorithm with appointed hyper-parameters
mappo = marl.algos.mappo(hyperparam_source='mpe')
# build agent model based on env + algorithms + user preference
model = marl.build_model(env, mappo, {"core_arch": "gru", "encode_layer": "128-256"})
# start training
mappo.fit(env, model, stop={'timesteps_total': 1000000}, share_policy='group')
# ready to control
mappo.render(env, model, share_policy='group', restore_path='path_to_checkpoint')
Why MARLlib?
Here we provide a table for the comparison of MARLlib and existing work.
Library | Supported Env | Algorithm | Parameter Sharing | Model |
---|---|---|---|---|
PyMARL | 1 cooperative | 5 | share | GRU |
PyMARL2 | 2 cooperative | 11 | share | MLP + GRU |
MAPPO Benchmark | 4 cooperative | 1 | share + separate | MLP + GRU |
MAlib | 4 self-play | 10 | share + group + separate | MLP + LSTM |
EPyMARL | 4 cooperative | 9 | share + separate | GRU |
MARLlib | 12 no task mode restriction | 18 | share + group + separate + customizable | MLP + CNN + GRU + LSTM |
Library | Github Stars | Documentation | Issues Open | Activity | Last Update |
---|---|---|---|---|---|
PyMARL | :x: | ||||
PyMARL2 | :x: | ||||
MAPPO Benchmark | :x: | ||||
MAlib | |||||
EPyMARL | :x: | ||||
MARLlib |
key features
:beginner: MARLlib offers several key features that make it stand out:
- MARLlib unifies diverse algorithm pipelines with agent-level distributed dataflow, allowing researchers to develop, test, and evaluate MARL algorithms across different tasks and environments.
- MARLlib supports all task modes, including cooperative, collaborative, competitive, and mixed. This makes it easier for researchers to train and evaluate MARL algorithms across a wide range of tasks.
- MARLlib provides a new interface that follows the structure of Gym, making it easier for researchers to work with multi-agent environments.
- MARLlib provides flexible and customizable parameter-sharing strategies, allowing researchers to optimize their algorithms for different tasks and environments.
:rocket: Using MARLlib, you can take advantage of various benefits, such as:
- Zero knowledge of MARL: MARLlib provides 18 pre-built algorithms with an intuitive API, allowing researchers to start experimenting with MARL without prior knowledge of the field.
- Support for all task modes: MARLlib supports almost all multi-agent environments, making it easier for researchers to experiment with different task modes.
- Customizable model architecture: Researchers can choose their preferred model architecture from the model zoo, or build their own.
- Customizable policy sharing: MARLlib provides grouping options for policy sharing, or researchers can create their own.
- Access to over a thousand released experiments: Researchers can access over a thousand released experiments to see how other researchers have used MARLlib.
Installation
Note: Currently MARLlib supports Linux only.
Step-by-step (recommended)
- install dependencies
- install environments
- install patches
1. install dependencies (basic)
First, install MARLlib dependencies to guarantee basic usage. following this guide, finally install patches for RLlib.
$ conda create -n marllib python=3.8 # or 3.9
$ conda activate marllib
$ git clone https://github.com/Replicable-MARL/MARLlib.git && cd MARLlib
$ pip install -r requirements.txt
2. install environments (optional)
Please follow this guide.
3. install patches (basic)
Fix bugs of RLlib using patches by running the following command:
$ cd /Path/To/MARLlib/marl/patch
$ python add_patch.py -y
PyPI
$ pip install --upgrade pip
$ pip install marllib
Getting started
Prepare the configuration
There are four parts of configurations that take charge of the whole training process.
- scenario: specify the environment/task settings
- algorithm: choose the hyperparameters of the algorithm
- model: customize the model architecture
- ray/rllib: change the basic training settings
Before training, ensure all the parameters are set correctly, especially those you don't want to change.
Note: You can also modify all the pre-set parameters via MARLLib API.*
Register the environment
Ensure all the dependencies are installed for the environment you are running with. Otherwise, please refer to MARLlib documentation.
task mode | api example |
---|---|
cooperative | marl.make_env(environment_name="mpe", map_name="simple_spread", force_coop=True) |
collaborative | marl.make_env(environment_name="mpe", map_name="simple_spread") |
competitive | marl.make_env(environment_name="mpe", map_name="simple_adversary") |
mixed | marl.make_env(environment_name="mpe", map_name="simple_crypto") |
Most of the popular environments in MARL research are supported by MARLlib:
Env Name | Learning Mode | Observability | Action Space | Observations |
---|---|---|---|---|
LBF | cooperative + collaborative | Both | Discrete | 1D |
RWARE | cooperative | Partial | Discrete | 1D |
MPE | cooperative + collaborative + mixed | Both | Both | 1D |
SMAC | cooperative | Partial | Discrete | 1D |
MetaDrive | collaborative | Partial | Continuous | 1D |
MAgent | collaborative + mixed | Partial | Discrete | 2D |
Pommerman | collaborative + competitive + mixed | Both | Discrete | 2D |
MAMuJoCo | cooperative | Full | Continuous | 1D |
GRF | collaborative + mixed | Full | Discrete | 2D |
Hanabi | cooperative | Partial | Discrete | 1D |
MATE | cooperative + mixed | Partial | Both | 1D |
GoBigger | cooperative + mixed | Both | Continuous | 1D |
Each environment has a readme file, standing as the instruction for this task, including env settings, installation, and important notes.
Initialize the algorithm
running target | api example |
---|---|
train & finetune | marl.algos.mappo(hyperparam_source=$ENV) |
develop & debug | marl.algos.mappo(hyperparam_source="test") |
3rd party env | marl.algos.mappo(hyperparam_source="common") |
Here is a chart describing the characteristics of each algorithm:
algorithm | support task mode | discrete action | continuous action | policy type |
---|---|---|---|---|
IQL* | all four | :heavy_check_mark: | off-policy | |
PG | all four | :heavy_check_mark: | :heavy_check_mark: | on-policy |
A2C | all four | :heavy_check_mark: | :heavy_check_mark: | on-policy |
DDPG | all four | :heavy_check_mark: | off-policy | |
TRPO | all four | :heavy_check_mark: | :heavy_check_mark: | on-policy |
PPO | all four | :heavy_check_mark: | :heavy_check_mark: | on-policy |
COMA | all four | :heavy_check_mark: | on-policy | |
MADDPG | all four | :heavy_check_mark: | off-policy | |
MAA2C* | all four | :heavy_check_mark: | :heavy_check_mark: | on-policy |
MATRPO* | all four | :heavy_check_mark: | :heavy_check_mark: | on-policy |
MAPPO | all four | :heavy_check_mark: | :heavy_check_mark: | on-policy |
HATRPO | cooperative | :heavy_check_mark: | :heavy_check_mark: | on-policy |
HAPPO | cooperative | :heavy_check_mark: | :heavy_check_mark: | on-policy |
VDN | cooperative | :heavy_check_mark: | off-policy | |
QMIX | cooperative | :heavy_check_mark: | off-policy | |
FACMAC | cooperative | :heavy_check_mark: | off-policy | |
VDAC | cooperative | :heavy_check_mark: | :heavy_check_mark: | on-policy |
VDPPO* | cooperative | :heavy_check_mark: | :heavy_check_mark: | on-policy |
*all four: cooperative collaborative competitive mixed
IQL is the multi-agent version of Q learning. MAA2C and MATRPO are the centralized version of A2C and TRPO. VDPPO is the value decomposition version of PPO.
Build the agent model
An agent model consists of two parts, encoder
and core arch
.
encoder
will be constructed by MARLlib according to the observation space.
Choose mlp
, gru
, or lstm
as you like to build the complete model.
model arch | api example |
---|---|
MLP | marl.build_model(env, algo, {"core_arch": "mlp") |
GRU | marl.build_model(env, algo, {"core_arch": "gru"}) |
LSTM | marl.build_model(env, algo, {"core_arch": "lstm"}) |
Encoder Arch | marl.build_model(env, algo, {"core_arch": "gru", "encode_layer": "128-256"}) |
Kick off the training
setting | api example |
---|---|
train | algo.fit(env, model) |
debug | algo.fit(env, model, local_mode=True) |
stop condition | algo.fit(env, model, stop={'episode_reward_mean': 2000, 'timesteps_total': 10000000}) |
policy sharing | algo.fit(env, model, share_policy='all') # or 'group' / 'individual' |
save model | algo.fit(env, model, checkpoint_freq=100, checkpoint_end=True) |
GPU accelerate | algo.fit(env, model, local_mode=False, num_gpus=1) |
CPU accelerate | algo.fit(env, model, local_mode=False, num_workers=5) |
Training & rendering API
from marllib import marl
# prepare env
env = marl.make_env(environment_name="mpe", map_name="simple_spread")
# initialize algorithm with appointed hyper-parameters
mappo = marl.algos.mappo(hyperparam_source="mpe")
# build agent model based on env + algorithms + user preference
model = marl.build_model(env, mappo, {"core_arch": "mlp", "encode_layer": "128-256"})
# start training
mappo.fit(
env, model,
stop={"timesteps_total": 1000000},
checkpoint_freq=100,
share_policy="group"
)
# rendering
mappo.render(
env, model,
local_mode=True,
restore_path={'params_path': "checkpoint_000010/params.json",
'model_path': "checkpoint_000010/checkpoint-10"}
)
Benchmark results
All results are listed here.
Quick examples
MARLlib provides some practical examples for you to refer to.
- Detailed API usage: show how to use MARLlib api in detail, e.g. cmd + api combined running.
- Policy sharing cutomization: define your group policy-sharing strategy as you like based on current tasks.
- Loading model and rendering: render the environment based on the pre-trained model.
- Incorporating new environment: add your new environment following MARLlib's env-agent interaction interface.
- Incorporating new algorithm: add your new algorithm following MARLlib learning pipeline.
Tutorials
Try MPE + MAPPO examples on Google Colaboratory!
More tutorial documentations are available here.
Awesome List
A collection of research and review papers of multi-agent reinforcement learning (MARL) is available. The papers have been organized based on their publication date and their evaluation of the corresponding environments.
Community
Channel | Link |
---|---|
Issues | GitHub Issues |
Roadmap
The roadmap to the future release is available in ROADMAP.md.
Contributing
We are a small team on multi-agent reinforcement learning, and we will take all the help we can get! If you would like to get involved, here is information on contribution guidelines and how to test the code locally.
You can contribute in multiple ways, e.g., reporting bugs, writing or translating documentation, reviewing or refactoring code, requesting or implementing new features, etc.
Paper
If you use MARLlib in your research, please cite the MARLlib paper.
@article{hu2022marllib,
title={MARLlib: Extending RLlib for Multi-agent Reinforcement Learning},
author={Hu, Siyi and Zhong, Yifan and Gao, Minquan and Wang, Weixun and Dong, Hao and Li, Zhihui and Liang, Xiaodan and Chang, Xiaojun and Yang, Yaodong},
journal={arXiv preprint arXiv:2210.13708},
year={2022}
}
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