Installation ============ Requirements ------------ - **Python**: Version >= 3.9 - **CUDA**: Version >= 12.1 verl supports various backends. Currently, the following configurations are available: - **FSDP** and **Megatron-LM** (optional) for training. - **SGLang**, **vLLM** and **TGI** for rollout generation. Choices of Backend Engines ---------------------------- 1. Training: We recommend using **FSDP** backend to investigate, research and prototype different models, datasets and RL algorithms. The guide for using FSDP backend can be found in :doc:`FSDP Workers<../workers/fsdp_workers>`. For users who pursue better scalability, we recommend using **Megatron-LM** backend. Currently, we support `Megatron-LM v0.11 `_. The guide for using Megatron-LM backend can be found in :doc:`Megatron-LM Workers<../workers/megatron_workers>`. 2. Inference: For inference, vllm 0.8.3 and later versions have been tested for stability. We recommend turning on env var `VLLM_USE_V1=1` for optimal performance. For SGLang, refer to the :doc:`SGLang Backend<../workers/sglang_worker>` for detailed installation and usage instructions. SGLang rollout is under extensive development and offers many advanced features and optimizations. We encourage users to report any issues or provide feedback via the `SGLang Issue Tracker `_. For huggingface TGI integration, it is usually used for debugging and single GPU exploration. Install from docker image ------------------------- We provide pre-built Docker images for quick setup. For vLLM with Megatron or FSDP, please use the stable version of image ``whatcanyousee/verl:ngc-cu124-vllm0.8.5-sglang0.4.6.post5-mcore0.12.1-te2.3-deepseekv3``, which supports DeepSeek-V3 671B post-training. For latest vLLM with FSDP, please refer to ``hiyouga/verl:ngc-th2.6.0-cu126-vllm0.8.4-flashinfer0.2.2-cxx11abi0``. For SGLang with FSDP, please use ``ocss884/verl-sglang:ngc-th2.6.0-cu126-sglang0.4.6.post5`` which is provided by SGLang RL Group. See files under ``docker/`` for NGC-based image or if you want to build your own. 1. Launch the desired Docker image and attach into it: .. code:: bash docker create --runtime=nvidia --gpus all --net=host --shm-size="10g" --cap-add=SYS_ADMIN -v .:/workspace/verl --name verl docker start verl docker exec -it verl bash 2. Inside the container, install latest verl: .. code:: bash # install the nightly version (recommended) git clone https://github.com/volcengine/verl && cd verl # pick your choice of inference engine: vllm or sglang # pip3 install -e .[vllm] # pip3 install -e .[sglang] # or install from pypi instead of git via: # pip3 install verl[vllm] # pip3 install verl[sglang] .. note:: The Docker image ``whatcanyousee/verl:ngc-cu124-vllm0.8.5-sglang0.4.6.post5-mcore0.12.1-te2.3-deepseekv3`` is built with the following configurations: - **PyTorch**: 2.6.0+cu124 - **CUDA**: 12.4 - **cuDNN**: 9.8.0 - **nvidia-cudnn-cu12**: 9.8.0.87, **important for the usage of Megatron FusedAttention with MLA Support** - **Flash Attenttion**: 2.7.4.post1 - **Flash Infer**: 0.2.5 - **vLLM**: 0.8.5 - **SGLang**: 0.4.6.post5 - **Megatron-LM**: core_v0.12.1 - **TransformerEngine**: 2.3 - **Ray**: 2.44.1 .. note:: For aws instances with EFA net interface (Sagemaker AI Pod), you need to install EFA driver as shown in ``docker/Dockerfile.awsefa`` Install from custom environment --------------------------------------------- We recommend to use docker images for convenience. However, if your environment is not compatible with the docker image, you can also install verl in a python environment. Pre-requisites :::::::::::::: For training and inference engines to utilize better and faster hardware support, CUDA/cuDNN and other dependencies are required, and some of the dependencies are easy to be overridden when installing other packages, so we put them in the :ref:`Post-installation` step. We need to install the following pre-requisites: - **CUDA**: Version >= 12.4 - **cuDNN**: Version >= 9.8.0 - **Apex** CUDA above 12.4 is recommended to use as the docker image, please refer to `NVIDIA's official website `_ for other version of CUDA. .. code:: bash # change directory to anywher you like, in verl source code directory is not recommended wget https://developer.download.nvidia.com/compute/cuda/12.4.1/local_installers/cuda-repo-ubuntu2204-12-4-local_12.4.1-550.54.15-1_amd64.deb dpkg -i cuda-repo-ubuntu2204-12-4-local_12.4.1-550.54.15-1_amd64.deb cp /var/cuda-repo-ubuntu2204-12-4-local/cuda-*-keyring.gpg /usr/share/keyrings/ apt-get update apt-get -y install cuda-toolkit-12-4 update-alternatives --set cuda /usr/local/cuda-12.4 cuDNN can be installed via the following command, please refer to `NVIDIA's official website `_ for other version of cuDNN. .. code:: bash # change directory to anywher you like, in verl source code directory is not recommended wget https://developer.download.nvidia.com/compute/cudnn/9.8.0/local_installers/cudnn-local-repo-ubuntu2204-9.8.0_1.0-1_amd64.deb dpkg -i cudnn-local-repo-ubuntu2204-9.8.0_1.0-1_amd64.deb cp /var/cudnn-local-repo-ubuntu2204-9.8.0/cudnn-*-keyring.gpg /usr/share/keyrings/ apt-get update apt-get -y install cudnn-cuda-12 NVIDIA Apex is required for Megatron-LM and FSDP training. You can install it via the following command, but notice that this steps can take a very long time. It is recommended to set the ``MAX_JOBS`` environment variable to accelerate the installation process, but do not set it too large, otherwise the memory will be overloaded and your machines may hang. .. code:: bash # change directory to anywher you like, in verl source code directory is not recommended git clone https://github.com/NVIDIA/apex.git && \ cd apex && \ MAX_JOB=32 pip install -v --disable-pip-version-check --no-cache-dir --no-build-isolation --config-settings "--build-option=--cpp_ext" --config-settings "--build-option=--cuda_ext" ./ Install dependencies :::::::::::::::::::: .. note:: We recommend to use a fresh new conda environment to install verl and its dependencies. **Notice that the inference frameworks often strictly limit your pytorch version and will directly override your installed pytorch if not paying enough attention.** As a countermeasure, it is recommended to install inference frameworks first with the pytorch they needed. For vLLM, if you hope to use your existing pytorch, please follow their official instructions `Use an existing PyTorch installation `_ . 1. First of all, to manage environment, we recommend using conda: .. code:: bash conda create -n verl python==3.10 conda activate verl 2. Then, execute the ``install.sh`` script that we provided in verl: .. code:: bash # Make sure you have activated verl conda env # If you need to run with megatron bash scripts/install_vllm_sglang_mcore.sh # Or if you simply need to run with FSDP USE_MEGATRON=0 bash scripts/install_vllm_sglang_mcore.sh If you encounter errors in this step, please check the script and manually follow the steps in the script. Install verl :::::::::::: For installing the latest version of verl, the best way is to clone and install it from source. Then you can modify our code to customize your own post-training jobs. .. code:: bash git clone https://github.com/volcengine/verl.git cd verl pip install --no-deps -e . Post-installation ::::::::::::::::: Please make sure that the installed packages are not overridden during the installation of other packages. The packages worth checking are: - **torch** and torch series - **vLLM** - **SGLang** - **pyarrow** - **tensordict** - **nvidia-cudnn-cu12**: For Magetron backend If you encounter issues about package versions during running verl, please update the outdated ones. Install with AMD GPUs - ROCM kernel support ------------------------------------------------------------------ When you run on AMD GPUs (MI300) with ROCM platform, you cannot use the previous quickstart to run verl. You should follow the following steps to build a docker and run it. If you encounter any issues in using AMD GPUs running verl, feel free to contact me - `Yusheng Su `_. Find the docker for AMD ROCm: `docker/Dockerfile.rocm `_ :::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: .. code-block:: bash # Build the docker in the repo dir: # docker build -f docker/Dockerfile.rocm -t verl-rocm:03.04.2015 . # docker images # you can find your built docker FROM rocm/vllm:rocm6.2_mi300_ubuntu20.04_py3.9_vllm_0.6.4 # Set working directory # WORKDIR $PWD/app # Set environment variables ENV PYTORCH_ROCM_ARCH="gfx90a;gfx942" # Install vllm RUN pip uninstall -y vllm && \ rm -rf vllm && \ git clone -b v0.6.3 https://github.com/vllm-project/vllm.git && \ cd vllm && \ MAX_JOBS=$(nproc) python3 setup.py install && \ cd .. && \ rm -rf vllm # Copy the entire project directory COPY . . # Install dependencies RUN pip install "tensordict<0.6" --no-deps && \ pip install accelerate \ codetiming \ datasets \ dill \ hydra-core \ liger-kernel \ numpy \ pandas \ datasets \ peft \ "pyarrow>=15.0.0" \ pylatexenc \ "ray[data,train,tune,serve]" \ torchdata \ transformers \ wandb \ orjson \ pybind11 && \ pip install -e . --no-deps Build the image :::::::::::::::::::::::: .. code-block:: bash docker build -t verl-rocm . Launch the container :::::::::::::::::::::::::::: .. code-block:: bash docker run --rm -it \ --device /dev/dri \ --device /dev/kfd \ -p 8265:8265 \ --group-add video \ --cap-add SYS_PTRACE \ --security-opt seccomp=unconfined \ --privileged \ -v $HOME/.ssh:/root/.ssh \ -v $HOME:$HOME \ --shm-size 128G \ -w $PWD \ verl-rocm \ /bin/bash If you do not want to root mode and require assign yourself as the user, Please add ``-e HOST_UID=$(id -u)`` and ``-e HOST_GID=$(id -g)`` into the above docker launch script. verl with AMD GPUs currently supports FSDP as the training engine, vLLM and SGLang as the inference engine. We will support Megatron in the future.