# Training on Microsoft Azure (works with ML-Agents Toolkit v0.3) :warning: **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. This page contains instructions for setting up training on Microsoft Azure through either [Azure Container Instances](https://azure.microsoft.com/services/container-instances/) or Virtual Machines. Non "headless" training has not yet been tested to verify support. ## Pre-Configured Azure Virtual Machine A pre-configured virtual machine image is available in the Azure Marketplace and is nearly completely ready for training. You can start by deploying the [Data Science Virtual Machine for Linux (Ubuntu)](https://azuremarketplace.microsoft.com/en-us/marketplace/apps/microsoft-dsvm.ubuntu-1804) into your Azure subscription. Note that, if you choose to deploy the image to an [N-Series GPU optimized VM](https://docs.microsoft.com/azure/virtual-machines/linux/sizes-gpu), training will, by default, run on the GPU. If you choose any other type of VM, training will run on the CPU. ## Configuring your own Instance Setting up your own instance requires a number of package installations. Please view the documentation for doing so [here](#custom-instances). ## Installing ML-Agents 1. [Move](https://docs.microsoft.com/en-us/azure/virtual-machines/linux/copy-files-to-linux-vm-using-scp) the `ml-agents` sub-folder of this ml-agents repo to the remote Azure instance, and set it as the working directory. 2. Install the required packages: Torch: `pip3 install torch==1.7.0 -f https://download.pytorch.org/whl/torch_stable.html` and MLAgents: `python -m pip install mlagents==0.25.1` ## Testing To verify that all steps worked correctly: 1. In the Unity Editor, load a project containing an ML-Agents environment (you can use one of the example environments if you have not created your own). 2. Open the Build Settings window (menu: File > Build Settings). 3. Select Linux as the Target Platform, and x86_64 as the target architecture. 4. Check Headless Mode. 5. Click Build to build the Unity environment executable. 6. Upload the resulting files to your Azure instance. 7. Test the instance setup from Python using: ```python from mlagents_envs.environment import UnityEnvironment env = UnityEnvironment(file_name="", seed=1, side_channels=[]) ``` Where `` corresponds to the path to your environment executable (i.e. `/home/UserName/Build/yourFile`). You should receive a message confirming that the environment was loaded successfully. **Note:** When running your environment in headless mode, you must append `--no-graphics` to your mlagents-learn command, as it won't train otherwise. You can test this simply by aborting a training and check if it says "Model Saved" or "Aborted", or see if it generated the .onnx in the result folder. ## Running Training on your Virtual Machine To run your training on the VM: 1. [Move](https://docs.microsoft.com/en-us/azure/virtual-machines/linux/copy-files-to-linux-vm-using-scp) your built Unity application to your Virtual Machine. 2. Set the directory where the ML-Agents Toolkit was installed to your working directory. 3. Run the following command: ```sh mlagents-learn --env= --run-id= --train ``` Where `` is the path to your app (i.e. `~/unity-volume/3DBallHeadless`) and `` is an identifier you would like to identify your training run with. If you've selected to run on a N-Series VM with GPU support, you can verify that the GPU is being used by running `nvidia-smi` from the command line. ## Monitoring your Training Run with TensorBoard Once you have started training, you can [use TensorBoard to observe the training](Using-Tensorboard.md). 1. Start by [opening the appropriate port for web traffic to connect to your VM](https://docs.microsoft.com/en-us/azure/virtual-machines/windows/nsg-quickstart-portal). - Note that you don't need to generate a new `Network Security Group` but instead, go to the **Networking** tab under **Settings** for your VM. - As an example, you could use the following settings to open the Port with the following Inbound Rule settings: - Source: Any - Source Port Ranges: \* - Destination: Any - Destination Port Ranges: 6006 - Protocol: Any - Action: Allow - Priority: (Leave as default) 2. Unless you started the training as a background process, connect to your VM from another terminal instance. 3. Run the following command from your terminal `tensorboard --logdir results --host 0.0.0.0` 4. You should now be able to open a browser and navigate to `:6060` to view the TensorBoard report. ## Running on Azure Container Instances [Azure Container Instances](https://azure.microsoft.com/services/container-instances/) allow you to spin up a container, on demand, that will run your training and then be shut down. This ensures you aren't leaving a billable VM running when it isn't needed. Using ACI enables you to offload training of your models without needing to install Python and TensorFlow on your own computer. ## Custom Instances This page contains instructions for setting up a custom Virtual Machine on Microsoft Azure so you can running ML-Agents training in the cloud. 1. Start by [deploying an Azure VM](https://docs.microsoft.com/azure/virtual-machines/linux/quick-create-portal) with Ubuntu Linux (tests were done with 16.04 LTS). To use GPU support, use a N-Series VM. 2. SSH into your VM. 3. Start with the following commands to install the Nvidia driver: ```sh wget http://us.download.nvidia.com/tesla/375.66/nvidia-diag-driver-local-repo-ubuntu1604_375.66-1_amd64.deb sudo dpkg -i nvidia-diag-driver-local-repo-ubuntu1604_375.66-1_amd64.deb sudo apt-get update sudo apt-get install cuda-drivers sudo reboot ``` 4. After a minute you should be able to reconnect to your VM and install the CUDA toolkit: ```sh wget https://developer.download.nvidia.com/compute/cuda/repos/ubuntu1604/x86_64/cuda-repo-ubuntu1604_8.0.61-1_amd64.deb sudo dpkg -i cuda-repo-ubuntu1604_8.0.61-1_amd64.deb sudo apt-get update sudo apt-get install cuda-8-0 ``` 5. You'll next need to download cuDNN from the Nvidia developer site. This requires a registered account. 6. Navigate to [http://developer.nvidia.com](http://developer.nvidia.com) and create an account and verify it. 7. Download (to your own computer) cuDNN from [this url](https://developer.nvidia.com/compute/machine-learning/cudnn/secure/v6/prod/8.0_20170307/Ubuntu16_04_x64/libcudnn6_6.0.20-1+cuda8.0_amd64-deb). 8. Copy the deb package to your VM: ```sh scp libcudnn6_6.0.21-1+cuda8.0_amd64.deb @:libcudnn6_6.0.21-1+cuda8.0_amd64.deb ``` 9. SSH back to your VM and execute the following: ```console sudo dpkg -i libcudnn6_6.0.21-1+cuda8.0_amd64.deb export LD_LIBRARY_PATH=/usr/local/cuda/lib64/:/usr/lib/x86_64-linux-gnu/:$LD_LIBRARY_PATH . ~/.profile sudo reboot ``` 10. After a minute, you should be able to SSH back into your VM. After doing so, run the following: ```sh sudo apt install python-pip sudo apt install python3-pip ``` 11. At this point, you need to install TensorFlow. The version you install should be tied to if you are using GPU to train: ```sh pip3 install tensorflow-gpu==1.4.0 keras==2.0.6 ``` Or CPU to train: ```sh pip3 install tensorflow==1.4.0 keras==2.0.6 ``` 12. You'll then need to install additional dependencies: ```sh pip3 install pillow pip3 install numpy ```