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Using Docker For ML-Agents (Deprecated)

⚠️ Note: We no longer use this guide ourselves and so it may not work correctly. We've decided to keep it up just in case it is helpful to you.

We currently offer a solution for Windows and Mac users who would like to do training or inference using Docker. This option may be appealing to those who would like to avoid installing Python and TensorFlow themselves. The current setup forces both TensorFlow and Unity to only rely on the CPU for computations. Consequently, our Docker simulation does not use a GPU and uses Xvfb to do visual rendering. Xvfb is a utility that enables ML-Agents (or any other application) to do rendering virtually i.e. it does not assume that the machine running ML-Agents has a GPU or a display attached to it. This means that rich environments which involve agents using camera-based visual observations might be slower.

Requirements

  • Docker
  • Unity Linux Build Support Component. Make sure to select the Linux Build Support component when installing Unity.

Linux Build Support

Setup

  • Download the Unity Installer and add the Linux Build Support Component

  • Download and install Docker if you don't have it setup on your machine.

  • Since Docker runs a container in an environment that is isolated from the host machine, a mounted directory in your host machine is used to share data, e.g. the trainer configuration file, Unity executable, curriculum files and TensorFlow graph. For convenience, we created an empty unity-volume directory at the root of the repository for this purpose, but feel free to use any other directory. The remainder of this guide assumes that the unity-volume directory is the one used.

Usage

Using Docker for ML-Agents involves three steps: building the Unity environment with specific flags, building a Docker container and, finally, running the container. If you are not familiar with building a Unity environment for ML-Agents, please read through our Getting Started with the 3D Balance Ball Example guide first.

Build the Environment (Optional)

If you want to used the Editor to perform training, you can skip this step.

Since Docker typically runs a container sharing a (linux) kernel with the host machine, the Unity environment has to be built for the linux platform. When building a Unity environment, please select the following options from the the Build Settings window:

  • Set the Target Platform to Linux
  • Set the Architecture to x86_64

Then click Build, pick an environment name (e.g. 3DBall) and set the output directory to unity-volume. After building, ensure that the file <environment-name>.x86_64 and subdirectory <environment-name>_Data/ are created under unity-volume.

Build Settings For Docker

Build the Docker Container

First, make sure the Docker engine is running on your machine. Then build the Docker container by calling the following command at the top-level of the repository:

docker build -t <image-name> .

Replace <image-name> with a name for the Docker image, e.g. balance.ball.v0.1.

Run the Docker Container

Run the Docker container by calling the following command at the top-level of the repository:

docker run -it --name <container-name> \
           --mount type=bind,source="$(pwd)"/unity-volume,target=/unity-volume \
           -p 5005:5005 \
           -p 6006:6006 \
           <image-name>:latest \
           <trainer-config-file> \
           --env=<environment-name> \
           --train \
           --run-id=<run-id>

Notes on argument values:

  • <container-name> is used to identify the container (in case you want to interrupt and terminate it). This is optional and Docker will generate a random name if this is not set. Note that this must be unique for every run of a Docker image.
  • <image-name> references the image name used when building the container.
  • <environment-name> (Optional): If you are training with a linux executable, this is the name of the executable. If you are training in the Editor, do not pass a <environment-name> argument and press the Play button in Unity when the message "Start training by pressing the Play button in the Unity Editor" is displayed on the screen.
  • source: Reference to the path in your host OS where you will store the Unity executable.
  • target: Tells Docker to mount the source path as a disk with this name.
  • trainer-config-file, train, run-id: ML-Agents arguments passed to mlagents-learn. trainer-config-file is the filename of the trainer config file, train trains the algorithm, and run-id is used to tag each experiment with a unique identifier. We recommend placing the trainer-config file inside unity-volume so that the container has access to the file.

To train with a 3DBall environment executable, the command would be:

docker run -it --name 3DBallContainer.first.trial \
           --mount type=bind,source="$(pwd)"/unity-volume,target=/unity-volume \
           -p 5005:5005 \
           -p 6006:6006 \
           balance.ball.v0.1:latest 3DBall \
           /unity-volume/trainer_config.yaml \
           --env=/unity-volume/3DBall \
           --train \
           --run-id=3dball_first_trial

For more detail on Docker mounts, check out these docs from Docker.

NOTE If you are training using docker for environments that use visual observations, you may need to increase the default memory that Docker allocates for the container. For example, see here for instructions for Docker for Mac.

Running Tensorboard

You can run Tensorboard to monitor your training instance on http://localhost:6006:

docker exec -it <container-name> tensorboard --logdir=/unity-volume/summaries --host=0.0.0.0

With our previous 3DBall example, this command would look like this:

docker exec -it 3DBallContainer.first.trial tensorboard --logdir=/unity-volume/summaries --host=0.0.0.0

For more details on Tensorboard, check out the documentation about Using Tensorboard.

Stopping Container and Saving State

If you are satisfied with the training progress, you can stop the Docker container while saving state by either using Ctrl+C or ⌘+C (Mac) or by using the following command:

docker kill --signal=SIGINT <container-name>

<container-name> is the name of the container specified in the earlier docker run command. If you didn't specify one, you can find the randomly generated identifier by running docker container ls.