MuJoCo stands for Multi-Joint dynamics with Contact. It is a general purpose physics engine that aims to facilitate research and development in robotics, biomechanics, graphics and animation, machine learning, and other areas which demand fast and accurate simulation of articulated structures interacting with their environment.
This repository is maintained by DeepMind, please see our acquisition and open sourcing announcements.
MuJoCo has a C API and is intended for researchers and developers. The runtime simulation module is tuned to maximize performance and operates on low-level data structures that are preallocated by the built-in XML compiler. The library includes interactive visualization with a native GUI, rendered in OpenGL. MuJoCo further exposes a large number of utility functions for computing physics-related quantities.
We also provide Python bindings and a plug-in for the Unity game engine.
Versioned releases are available as precompiled binaries from the GitHub releases page, built for Linux (x86-64 and AArch64), Windows (x86-64 only), and macOS (universal). This is the recommended way to use the software.
Users who wish to build MuJoCo from source should consult the build from
source section of the documentation. However, please note that the commit at
the tip of the main
branch may be unstable.
The native Python bindings, which come pre-packaged with a copy of MuJoCo, can be installed from PyPI via:
pip install mujoco
Note that Pre-built Linux wheels target manylinux2014
, see
here for compatible distributions. For more
information such as building the bindings from source, see the Python Bindings
section of the documentation.
MuJoCo's documentation is available at mujoco.readthedocs.io, which serves webpages derived from the documentation source files.
There are two easy ways to get started with MuJoCo:
-
Run
simulate
on your machine. This video shows a screen capture ofsimulate
, MuJoCo's native interactive viewer. Follow the steps described in the Getting Started section of the documentation to getsimulate
running on your machine. -
Explore our online IPython notebooks. If you are a Python user, you might want to start with our tutorial notebooks running on Google Colab:
- The first tutorial focuses on the basics of MuJoCo:
- For a more advanced example, see the LQR tutorial which creates an LQR controlled to balance a humanoid on one leg using MuJoCo's dynamics derivatives:
We welcome community engagement: questions, requests for help, bug reports and feature requests. To read more about bug reports, feature requests and more ambitious contributions, please see our contributors guide.
Questions and requests for help are welcome on the GitHub issues and discussions pages. Issues should be focused on a specific problem or question, while discussions should address wider concerns that might require input from multiple participants.
Here are some guidelines for asking good questions:
-
Search for existing questions or issues that touch on the same subject.
You can add comments to existing threads or start new ones. If you start a new thread and there are existing relevant threads, please link to them.
-
Use a clear and specific title. Try to include keywords that will make your question easy for other to find in the future.
-
Introduce yourself and your project more generally.
If your level of expertise is exceptional (either high or low), and it might be relevant to what we can assume you know, please state that as well.
-
Take a step back and tell us what you're trying to accomplish, if we understand you goal we might suggest a different type of solution than the one you are having problems with
-
Make it easy for others to reproduce the problem or understand your question.
If this requires a model, please include it. Try to make the model minimal: remove elements that are unrelated to your question. Pure XML models should be inlined. Models requiring binary assets (meshes, textures), should be attached as a
.zip
file. Please make sure the included model is loadable before you attach it. -
Include an illustrative screenshot or video, if relevant.
-
Tell us how you are accessing MuJoCo (C API, Python bindings, etc.) and which MuJoCo version and operating system you are using.
MuJoCo forms the backbone of many environment packages, but these are too many to list here individually. Below we focus on bindings and converters.
These packages give users of various languages access to MuJoCo functionality:
- Python bindings
- dm_control, DeepMind's related environment stack, includes PyMJCF, a module for procedural manipulation of MuJoCo models.
- C# bindings and Unity plug-in
- Swift: swift-mujoco
- Java: mujoco-java
- Julia: Lyceum (unmaintained)
- OpenSim: O2MConverter converts openSIM models to MJCF.
- SDFormat: gz-mujoco is a two-way SDFormat <-> MJCF conversion tool.
- OBJ: obj2mjcf a script for converting composite OBJ files into a loadable MJCF model.
If you use MuJoCo for published research, please cite:
@inproceedings{todorov2012mujoco,
title={MuJoCo: A physics engine for model-based control},
author={Todorov, Emanuel and Erez, Tom and Tassa, Yuval},
booktitle={2012 IEEE/RSJ International Conference on Intelligent Robots and Systems},
pages={5026--5033},
year={2012},
organization={IEEE},
doi={10.1109/IROS.2012.6386109}
}
Copyright 2021 DeepMind Technologies Limited.
Box collision code (engine_collision_box.c
)
is Copyright 2016 Svetoslav Kolev.
ReStructuredText documents, images, and videos in the doc
directory are made
available under the terms of the Creative Commons Attribution 4.0 (CC BY 4.0)
license. You may obtain a copy of the License at
https://creativecommons.org/licenses/by/4.0/legalcode.
Source code is licensed under the Apache License, Version 2.0. You may obtain a copy of the License at https://www.apache.org/licenses/LICENSE-2.0.
This is not an officially supported Google product.