--- comments: true description: Learn to effortlessly set up Ultralytics in Docker, from installation to running with CPU/GPU support. Follow our comprehensive guide for seamless container experience. keywords: Ultralytics, Docker, Quickstart Guide, CPU support, GPU support, NVIDIA Docker, container setup, Docker environment, Docker Hub, Ultralytics projects --- # Docker Quickstart Guide for Ultralytics

Ultralytics Docker Package Visual

This guide serves as a comprehensive introduction to setting up a Docker environment for your Ultralytics projects. [Docker](https://www.docker.com/) is a platform for developing, shipping, and running applications in containers. It is particularly beneficial for ensuring that the software will always run the same, regardless of where it's deployed. For more details, visit the Ultralytics Docker repository on [Docker Hub](https://hub.docker.com/r/ultralytics/ultralytics). [![Docker Image Version](https://img.shields.io/docker/v/ultralytics/ultralytics?sort=semver&logo=docker)](https://hub.docker.com/r/ultralytics/ultralytics) [![Docker Pulls](https://img.shields.io/docker/pulls/ultralytics/ultralytics)](https://hub.docker.com/r/ultralytics/ultralytics) ## What You Will Learn - Setting up Docker with NVIDIA support - Installing Ultralytics Docker images - Running Ultralytics in a Docker container with CPU or GPU support - Using a Display Server with Docker to Show Ultralytics Detection Results - Mounting local directories into the container --- ## Prerequisites - Make sure Docker is installed on your system. If not, you can download and install it from [Docker's website](https://www.docker.com/products/docker-desktop/). - Ensure that your system has an NVIDIA GPU and NVIDIA drivers are installed. --- ## Setting up Docker with NVIDIA Support First, verify that the NVIDIA drivers are properly installed by running: ```bash nvidia-smi ``` ### Installing NVIDIA Docker Runtime Now, let's install the NVIDIA Docker runtime to enable GPU support in Docker containers: ```bash # Add NVIDIA package repositories curl -s -L https://nvidia.github.io/nvidia-docker/gpgkey | sudo apt-key add - distribution=$(lsb_release -cs) curl -s -L https://nvidia.github.io/nvidia-docker/$distribution/nvidia-docker.list | sudo tee /etc/apt/sources.list.d/nvidia-docker.list # Install NVIDIA Docker runtime sudo apt-get update sudo apt-get install -y nvidia-docker2 # Restart Docker service to apply changes sudo systemctl restart docker ``` ### Verify NVIDIA Runtime with Docker Run `docker info | grep -i runtime` to ensure that `nvidia` appears in the list of runtimes: ```bash docker info | grep -i runtime ``` --- ## Installing Ultralytics Docker Images Ultralytics offers several Docker images optimized for various platforms and use-cases: - **Dockerfile:** GPU image, ideal for training. - **Dockerfile-arm64:** For ARM64 architecture, suitable for devices like [Raspberry Pi](raspberry-pi.md). - **Dockerfile-cpu:** CPU-only version for inference and non-GPU environments. - **Dockerfile-jetson:** Optimized for NVIDIA Jetson devices. - **Dockerfile-python:** Minimal Python environment for lightweight applications. - **Dockerfile-conda:** Includes [Miniconda3](https://docs.conda.io/projects/miniconda/en/latest/) and Ultralytics package installed via Conda. To pull the latest image: ```bash # Set image name as a variable t=ultralytics/ultralytics:latest # Pull the latest Ultralytics image from Docker Hub sudo docker pull $t ``` --- ## Running Ultralytics in Docker Container Here's how to execute the Ultralytics Docker container: ### Using only the CPU ```bash # Run with all GPUs sudo docker run -it --ipc=host $t ``` ### Using GPUs ```bash # Run with all GPUs sudo docker run -it --ipc=host --gpus all $t # Run specifying which GPUs to use sudo docker run -it --ipc=host --gpus '"device=2,3"' $t ``` The `-it` flag assigns a pseudo-TTY and keeps stdin open, allowing you to interact with the container. The `--ipc=host` flag enables sharing of host's IPC namespace, essential for sharing memory between processes. The `--gpus` flag allows the container to access the host's GPUs. ## Running Ultralytics in Docker Container Here's how to execute the Ultralytics Docker container: ### Using only the CPU ```bash # Run with all GPUs sudo docker run -it --ipc=host $t ``` ### Using GPUs ```bash # Run with all GPUs sudo docker run -it --ipc=host --gpus all $t # Run specifying which GPUs to use sudo docker run -it --ipc=host --gpus '"device=2,3"' $t ``` The `-it` flag assigns a pseudo-TTY and keeps stdin open, allowing you to interact with the container. The `--ipc=host` flag enables sharing of host's IPC namespace, essential for sharing memory between processes. The `--gpus` flag allows the container to access the host's GPUs. ### Note on File Accessibility To work with files on your local machine within the container, you can use Docker volumes: ```bash # Mount a local directory into the container sudo docker run -it --ipc=host --gpus all -v /path/on/host:/path/in/container $t ``` Replace `/path/on/host` with the directory path on your local machine and `/path/in/container` with the desired path inside the Docker container. ## Run graphical user interface (GUI) applications in a Docker Container !!! danger "Highly Experimental - User Assumes All Risk" The following instructions are experimental. Sharing a X11 socket with a Docker container poses potential security risks. Therefore, it's recommended to test this solution only in a controlled environment. For more information, refer to these resources on how to use `xhost`[(1)](http://users.stat.umn.edu/~geyer/secure.html)[(2)](https://linux.die.net/man/1/xhost). Docker is primarily used to containerize background applications and CLI programs, but it can also run graphical programs. In the Linux world, two main graphic servers handle graphical display: [X11](https://www.x.org/wiki/) (also known as the X Window System) and [Wayland](https://wayland.freedesktop.org/). Before starting, it's essential to determine which graphics server you are currently using. Run this command to find out: ```bash env | grep -E -i 'x11|xorg|wayland' ``` Setup and configuration of an X11 or Wayland display server is outside the scope of this guide. If the above command returns nothing, then you'll need to start by getting either working for your system before continuing. ### Running a Docker Container with a GUI !!! example ??? info "Use GPUs" If you're using [GPUs](#using-gpus), you can add the `--gpus all` flag to the command. === "X11" If you're using X11, you can run the following command to allow the Docker container to access the X11 socket: ```bash xhost +local:docker && docker run -e DISPLAY=$DISPLAY \ -v /tmp/.X11-unix:/tmp/.X11-unix \ -v ~/.Xauthority:/root/.Xauthority \ -it --ipc=host $t ``` This command sets the `DISPLAY` environment variable to the host's display, mounts the X11 socket, and maps the `.Xauthority` file to the container. The `xhost +local:docker` command allows the Docker container to access the X11 server. === "Wayland" For Wayland, use the following command: ```bash xhost +local:docker && docker run -e DISPLAY=$DISPLAY \ -v $XDG_RUNTIME_DIR/$WAYLAND_DISPLAY:/tmp/$WAYLAND_DISPLAY \ --net=host -it --ipc=host $t ``` This command sets the `DISPLAY` environment variable to the host's display, mounts the Wayland socket, and allows the Docker container to access the Wayland server. ### Using Docker with a GUI Now you can display graphical applications inside your Docker container. For example, you can run the following [CLI command](../usage/cli.md) to visualize the [predictions](../modes/predict.md) from a [YOLO11 model](../models/yolo11.md): ```bash yolo predict model=yolo11n.pt show=True ``` ??? info "Testing" A simple way to validate that the Docker group has access to the X11 server is to run a container with a GUI program like [`xclock`](https://www.x.org/archive/X11R6.8.1/doc/xclock.1.html) or [`xeyes`](https://www.x.org/releases/X11R7.5/doc/man/man1/xeyes.1.html). Alternatively, you can also install these programs in the Ultralytics Docker container to test the access to the X11 server of your GNU-Linux display server. If you run into any problems, consider setting the environment variable `-e QT_DEBUG_PLUGINS=1`. Setting this environment variable enables the output of debugging information, aiding in the troubleshooting process. ### When finished with Docker GUI !!! warning "Revoke access" In both cases, don't forget to revoke access from the Docker group when you're done. ```bash xhost -local:docker ``` ??? question "Want to view image results directly in the Terminal?" Refer to the following guide on [viewing the image results using a terminal](./view-results-in-terminal.md) --- Congratulations! You're now set up to use Ultralytics with Docker and ready to take advantage of its powerful capabilities. For alternate installation methods, feel free to explore the [Ultralytics quickstart documentation](../quickstart.md). ## FAQ ### How do I set up Ultralytics with Docker? To set up Ultralytics with Docker, first ensure that Docker is installed on your system. If you have an NVIDIA GPU, install the NVIDIA Docker runtime to enable GPU support. Then, pull the latest Ultralytics Docker image from Docker Hub using the following command: ```bash sudo docker pull ultralytics/ultralytics:latest ``` For detailed steps, refer to our [Docker Quickstart Guide](../quickstart.md). ### What are the benefits of using Ultralytics Docker images for [machine learning](https://www.ultralytics.com/glossary/machine-learning-ml) projects? Using Ultralytics Docker images ensures a consistent environment across different machines, replicating the same software and dependencies. This is particularly useful for collaborating across teams, running models on various hardware, and maintaining reproducibility. For GPU-based training, Ultralytics provides optimized Docker images such as `Dockerfile` for general GPU usage and `Dockerfile-jetson` for NVIDIA Jetson devices. Explore [Ultralytics Docker Hub](https://hub.docker.com/r/ultralytics/ultralytics) for more details. ### How can I run Ultralytics YOLO in a Docker container with GPU support? First, ensure that the NVIDIA Docker runtime is installed and configured. Then, use the following command to run Ultralytics YOLO with GPU support: ```bash sudo docker run -it --ipc=host --gpus all ultralytics/ultralytics:latest ``` This command sets up a Docker container with GPU access. For additional details, see the [Docker Quickstart Guide](../quickstart.md). ### How do I visualize YOLO prediction results in a Docker container with a display server? To visualize YOLO prediction results with a GUI in a Docker container, you need to allow Docker to access your display server. For systems running X11, the command is: ```bash xhost +local:docker && docker run -e DISPLAY=$DISPLAY \ -v /tmp/.X11-unix:/tmp/.X11-unix \ -v ~/.Xauthority:/root/.Xauthority \ -it --ipc=host ultralytics/ultralytics:latest ``` For systems running Wayland, use: ```bash xhost +local:docker && docker run -e DISPLAY=$DISPLAY \ -v $XDG_RUNTIME_DIR/$WAYLAND_DISPLAY:/tmp/$WAYLAND_DISPLAY \ --net=host -it --ipc=host ultralytics/ultralytics:latest ``` More information can be found in the [Run graphical user interface (GUI) applications in a Docker Container](#run-graphical-user-interface-gui-applications-in-a-docker-container) section. ### Can I mount local directories into the Ultralytics Docker container? Yes, you can mount local directories into the Ultralytics Docker container using the `-v` flag: ```bash sudo docker run -it --ipc=host --gpus all -v /path/on/host:/path/in/container ultralytics/ultralytics:latest ``` Replace `/path/on/host` with the directory on your local machine and `/path/in/container` with the desired path inside the container. This setup allows you to work with your local files within the container. For more information, refer to the relevant section on [mounting local directories](../usage/python.md).