147 lines
8.7 KiB
Markdown
147 lines
8.7 KiB
Markdown
# CUDA {#cuda}
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CUDA-only packages are stored in the `cudaPackages` packages set. This set
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includes the `cudatoolkit`, portions of the toolkit in separate derivations,
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`cudnn`, `cutensor` and `nccl`.
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A package set is available for each CUDA version, so for example
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`cudaPackages_11_6`. Within each set is a matching version of the above listed
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packages. Additionally, other versions of the packages that are packaged and
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compatible are available as well. For example, there can be a
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`cudaPackages.cudnn_8_3` package.
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To use one or more CUDA packages in an expression, give the expression a `cudaPackages` parameter, and in case CUDA is optional
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```nix
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{ config
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, cudaSupport ? config.cudaSupport
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, cudaPackages ? { }
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, ...
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}:
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```
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When using `callPackage`, you can choose to pass in a different variant, e.g.
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when a different version of the toolkit suffices
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```nix
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mypkg = callPackage { cudaPackages = cudaPackages_11_5; }
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```
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If another version of say `cudnn` or `cutensor` is needed, you can override the
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package set to make it the default. This guarantees you get a consistent package
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set.
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```nix
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mypkg = let
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cudaPackages = cudaPackages_11_5.overrideScope (final: prev: {
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cudnn = prev.cudnn_8_3;
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}});
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in callPackage { inherit cudaPackages; };
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```
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The CUDA NVCC compiler requires flags to determine which hardware you
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want to target for in terms of SASS (real hardware) or PTX (JIT kernels).
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Nixpkgs tries to target support real architecture defaults based on the
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CUDA toolkit version with PTX support for future hardware. Experienced
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users may optimize this configuration for a variety of reasons such as
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reducing binary size and compile time, supporting legacy hardware, or
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optimizing for specific hardware.
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You may provide capabilities to add support or reduce binary size through
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`config` using `cudaCapabilities = [ "6.0" "7.0" ];` and
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`cudaForwardCompat = true;` if you want PTX support for future hardware.
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Please consult [GPUs supported](https://en.wikipedia.org/wiki/CUDA#GPUs_supported)
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for your specific card(s).
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Library maintainers should consult [NVCC Docs](https://docs.nvidia.com/cuda/cuda-compiler-driver-nvcc/)
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and release notes for their software package.
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## Adding a new CUDA release {#adding-a-new-cuda-release}
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> **WARNING**
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>
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> This section of the docs is still very much in progress. Feedback is welcome in GitHub Issues tagging @NixOS/cuda-maintainers or on [Matrix](https://matrix.to/#/#cuda:nixos.org).
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The CUDA Toolkit is a suite of CUDA libraries and software meant to provide a development environment for CUDA-accelerated applications. Until the release of CUDA 11.4, NVIDIA had only made the CUDA Toolkit available as a multi-gigabyte runfile installer, which we provide through the [`cudaPackages.cudatoolkit`](https://search.nixos.org/packages?channel=unstable&type=packages&query=cudaPackages.cudatoolkit) attribute. From CUDA 11.4 and onwards, NVIDIA has also provided CUDA redistributables (“CUDA-redist”): individually packaged CUDA Toolkit components meant to facilitate redistribution and inclusion in downstream projects. These packages are available in the [`cudaPackages`](https://search.nixos.org/packages?channel=unstable&type=packages&query=cudaPackages) package set.
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All new projects should use the CUDA redistributables available in [`cudaPackages`](https://search.nixos.org/packages?channel=unstable&type=packages&query=cudaPackages) in place of [`cudaPackages.cudatoolkit`](https://search.nixos.org/packages?channel=unstable&type=packages&query=cudaPackages.cudatoolkit), as they are much easier to maintain and update.
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### Updating CUDA redistributables {#updating-cuda-redistributables}
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1. Go to NVIDIA's index of CUDA redistributables: <https://developer.download.nvidia.com/compute/cuda/redist/>
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2. Make a note of the new version of CUDA available.
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3. Run
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```bash
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nix run github:connorbaker/cuda-redist-find-features -- \
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download-manifests \
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--log-level DEBUG \
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--version <newest CUDA version> \
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https://developer.download.nvidia.com/compute/cuda/redist \
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./pkgs/development/cuda-modules/cuda/manifests
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```
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This will download a copy of the manifest for the new version of CUDA.
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4. Run
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```bash
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nix run github:connorbaker/cuda-redist-find-features -- \
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process-manifests \
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--log-level DEBUG \
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--version <newest CUDA version> \
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https://developer.download.nvidia.com/compute/cuda/redist \
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./pkgs/development/cuda-modules/cuda/manifests
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```
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This will generate a `redistrib_features_<newest CUDA version>.json` file in the same directory as the manifest.
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5. Update the `cudaVersionMap` attribute set in `pkgs/development/cuda-modules/cuda/extension.nix`.
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### Updating cuTensor {#updating-cutensor}
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1. Repeat the steps present in [Updating CUDA redistributables](#updating-cuda-redistributables) with the following changes:
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- Use the index of cuTensor redistributables: <https://developer.download.nvidia.com/compute/cutensor/redist>
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- Use the newest version of cuTensor available instead of the newest version of CUDA.
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- Use `pkgs/development/cuda-modules/cutensor/manifests` instead of `pkgs/development/cuda-modules/cuda/manifests`.
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- Skip the step of updating `cudaVersionMap` in `pkgs/development/cuda-modules/cuda/extension.nix`.
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### Updating supported compilers and GPUs {#updating-supported-compilers-and-gpus}
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1. Update `nvcc-compatibilities.nix` in `pkgs/development/cuda-modules/` to include the newest release of NVCC, as well as any newly supported host compilers.
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2. Update `gpus.nix` in `pkgs/development/cuda-modules/` to include any new GPUs supported by the new release of CUDA.
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### Updating the CUDA Toolkit runfile installer {#updating-the-cuda-toolkit}
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> **WARNING**
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>
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> While the CUDA Toolkit runfile installer is still available in Nixpkgs as the [`cudaPackages.cudatoolkit`](https://search.nixos.org/packages?channel=unstable&type=packages&query=cudaPackages.cudatoolkit) attribute, its use is not recommended and should it be considered deprecated. Please migrate to the CUDA redistributables provided by the [`cudaPackages`](https://search.nixos.org/packages?channel=unstable&type=packages&query=cudaPackages) package set.
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>
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> To ensure packages relying on the CUDA Toolkit runfile installer continue to build, it will continue to be updated until a migration path is available.
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1. Go to NVIDIA's CUDA Toolkit runfile installer download page: <https://developer.nvidia.com/cuda-downloads>
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2. Select the appropriate OS, architecture, distribution, and version, and installer type.
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- For example: Linux, x86_64, Ubuntu, 22.04, runfile (local)
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- NOTE: Typically, we use the Ubuntu runfile. It is unclear if the runfile for other distributions will work.
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3. Take the link provided by the installer instructions on the webpage after selecting the installer type and get its hash by running:
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```bash
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nix store prefetch-file --hash-type sha256 <link>
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```
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4. Update `pkgs/development/cuda-modules/cudatoolkit/releases.nix` to include the release.
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### Updating the CUDA package set {#updating-the-cuda-package-set}
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1. Include a new `cudaPackages_<major>_<minor>` package set in `pkgs/top-level/all-packages.nix`.
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- NOTE: Changing the default CUDA package set should occur in a separate PR, allowing time for additional testing.
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2. Successfully build the closure of the new package set, updating `pkgs/development/cuda-modules/cuda/overrides.nix` as needed. Below are some common failures:
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| Unable to ... | During ... | Reason | Solution | Note |
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| --- | --- | --- | --- | --- |
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| Find headers | `configurePhase` or `buildPhase` | Missing dependency on a `dev` output | Add the missing dependency | The `dev` output typically contain the headers |
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| Find libraries | `configurePhase` | Missing dependency on a `dev` output | Add the missing dependency | The `dev` output typically contain CMake configuration files |
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| Find libraries | `buildPhase` or `patchelf` | Missing dependency on a `lib` or `static` output | Add the missing dependency | The `lib` or `static` output typically contain the libraries |
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In the scenario you are unable to run the resulting binary: this is arguably the most complicated as it could be any combination of the previous reasons. This type of failure typically occurs when a library attempts to load or open a library it depends on that it does not declare in its `DT_NEEDED` section. As a first step, ensure that dependencies are patched with [`cudaPackages.autoAddOpenGLRunpath`](https://search.nixos.org/packages?channel=unstable&type=packages&query=cudaPackages.autoAddOpenGLRunpath). Failing that, try running the application with [`nixGL`](https://github.com/guibou/nixGL) or a similar wrapper tool. If that works, it likely means that the application is attempting to load a library that is not in the `RPATH` or `RUNPATH` of the binary.
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