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A GPU-Accelerated Game Engine for Batch Simulation

Madrona is a prototype game engine for creating high-throughput, GPU-accelerated simulators that run thousands of virtual environment instances, and generate millions of aggregate simulation steps per second, on a single GPU. (We like to refer to this as "batch simulation".) This efficiency is useful for high-performance AI agent training (e.g., via reinforcement learning), or for any task that requires a high-performance environment simulator tightly integrated "in-the-loop" of a broader application.

Please see the Madrona engine project page for more information, as well as the Madrona FAQ.

Key Features:

  • GPU-driven batch ECS implementation for high-throughput execution.
  • CPU backend for debugging and visualization. Simulators can execute on GPU or CPU with no code changes.
  • Export ECS simulation state as PyTorch tensors for efficient interoperability with learning code.
  • High-throughput batch renderer which renders small images from the point of view of agents for purposes like pixels-to-actions training.
  • XPBD rigid body physics for basic 3D collision and contact support.
  • (Optional) A simple interactive 3D renderer for visualizing agent behaviors and debugging.

Disclaimer: The Madrona engine is a research code base. We hope to attract interested users / collaborators with this release, however there will be missing features / documentation / bugs, as well as breaking API changes as we continue to develop the engine. Please post any issues you find on this github repo.

Technical Papers

For more background and technical details on Madrona's design, please read:

For more details on Madrona's batch renderer (also called ``tiled rendering'' by the AI community), refer to:

Madrona uses an Entity Component System (ECS) architecture for defining game state and expressing game logic. For general background and tutorials on ECS programming abstractions and the motivation for the ECS design pattern's use in games, we recommend Sander Mertens' excellent ECS FAQ.

Example Madrona-Based Simulators

Madrona itself is not an RL environment simulator. It is a game engine / framework that makes it easier for developers (like RL researchers) to implement their own new environment simulators that achieve high performance by running batch simulations on GPUs, and tightly integrating those simulation outputs with learning code. Here are a few environment simulators written in Madrona.

  • A simple 3D environment that demonstrates the use of Madrona's ECS APIs, as well as physics and rendering functionality, via a simple task where agents must learn to press buttons and push blocks to advance through a series of rooms.
  • A high-throughput Madrona rewrite of the Overcooked-AI environment, a multi-agent learning environment based on the cooperative video game. Check out this repo for a Colab notebook that allows you to train overcooked agents that demonstrate optimal play in about two minutes.
  • The canonical RL training environment.
  • An example of hooking up Madrona's batch renderer to an external simulator like MJX.
  • A benchmarking repository with a couple different examples of the renderer's usage that were included in the SIGGRAPH Asia 2024 paper.

Dependencies

Supported Platforms

  • Linux, Ubuntu 18.04 or newer
    • Other distros with equivalent or newer kernel / GLIBC versions will also work
  • MacOS 13.x Ventura (or newer)
    • Requires full Xcode 14 install (not just Xcode Command Line Tools)
    • Currently no testing / support for Intel Macs
  • Windows 11
    • Requires Visual Studio 16.4 (or newer) with recent Windows SDK

General Dependencies

  • CMake 3.24 (or newer)
  • Python 3.9 (or newer)

GPU-Backend Dependencies

  • Volta or newer NVIDIA GPU
  • CUDA 12.1 or newer (+ appropriate NVIDIA drivers)
  • Linux (CUDA on Windows lacks certain unified memory features that Madrona requires)

These dependencies are needed for the GPU backend. If they are not present, Madrona's GPU backend will be disabled, but you can still use the CPU backend.

Getting Started

Madrona is intended to be integrated as a library / submodule of simulators built on top of the engine. Therefore, you should start with one of our example simulators, rather than trying to build this repo directly.

As a starting point for learning how to use the engine, we recommend the Madrona Escape Room project. This is a simple 3D environment that demonstrates the use of Madrona's ECS APIs, as well as physics and rendering functionality, via a simple task where agents must learn to press buttons and pull blocks to advance through a series of rooms.

For ML-focused users interested in training agents at high speed, we recommend you check out the Madrona RL Environments repo that contains an Overcooked-AI implementation where you can train agents in two minutes using Google Colab, as well as Hanabi and Cartpole implementations.

If you are interested in authoring a new simulator on top of Madrona, we recommend forking one of the above projects and adding your own functionality, or forking the Madrona Simple Example repository for a code base with very little existing logic to get in your way. Basing your work on one of these repositories will ensure the CMake build system and python bindings are setup correctly.

Building:

Instructions on building and testing the Madrona Escape Room simulator are included below for Linux and MacOS:

git clone --recursive https://github.com/shacklettbp/madrona_escape_room.git
cd madrona_escape_room
pip install -e . 
mkdir build
cd build
cmake ..
make -j # Num Cores To Build With

You can then view the environment by running:

./build/viewer

Please refer to the Madrona Escape Room simulator's github page for further context / instructions on how to train agents.

Windows Instructions: Windows users should clone the repository as above, and then open the root of the cloned repo in Visual Studio and build with the integrated CMake support. By default, Visual Studio has a build directory like out/build/Release-x64, depending on your build configuration. This requires changing the pip install command above to tell python where the C++ python extensions are located:

pip install -e . -Cpackages.madrona_escape_room.ext-out-dir=out/build/Release-x64

Code Organization

We recommend starting with the Madrona Escape Room project for learning how to use Madrona's ECS APIs, as documentation within Madrona itself is still fairly minimal.

Nevertheless, the following files provide good starting points to dive into the Madrona codebase:

The Context class: include/madrona/context.hpp includes the core ECS API entry points for the engine (creating entities, getting components, etc): . Note that the linked file is the header for the CPU backend. The GPU implementation of the same interface lives in src/mw/device/include/madrona/context.hpp. Although many of the headers in include/madrona are shared between the CPU and GPU backends, the GPU backend prioritizes files in src/mw/device/include in order to use GPU specific implementations. This distinction should not be relevant for most users of the engine, as the public interfaces of both backends match.

The ECSRegistry class: include/madrona/registry.hpp is where user code registers all the ECS Components and Archetypes that will be used during the simulation. Note that Madrona requires all the used archetypes to be declared up front -- unlike other ECS engines adding and removing components dynamically from entities is not currently supported.

The TaskGraphBuilder class: include/madrona/taskgraph_builder.hpp includes the interface for building the task graph that will be executed to step the simulation across all worlds.

The MWCudaExecutor class: include/madrona/mw_gpu.hpp is the entry point for the GPU backend.

The TaskGraphExecutor class: include/madrona/mw_cpu.hpp is the entry point for the CPU backend.

Citation

If you use Madrona in a research project, please cite our SIGGRAPH 2023 paper:

@article{shacklett23madrona,
    title   = {An Extensible, Data-Oriented Architecture for High-Performance, Many-World Simulation},
    author  = {Brennan Shacklett and Luc Guy Rosenzweig and Zhiqiang Xie and Bidipta Sarkar and Andrew Szot and Erik Wijmans and Vladlen Koltun and Dhruv Batra and Kayvon Fatahalian},
    journal = {ACM Trans. Graph.},
    volume = {42},
    number = {4},
    year    = {2023}
}

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