587713944a
GitOrigin-RevId: 6143fc5eeb9c4f00163267708e26191d1e918932
397 lines
14 KiB
Nix
397 lines
14 KiB
Nix
# Type aliases
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# Gpu :: AttrSet
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# - See the documentation in ./gpus.nix.
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{
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config,
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cudaCapabilities ? (config.cudaCapabilities or [ ]),
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cudaForwardCompat ? (config.cudaForwardCompat or true),
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lib,
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cudaVersion,
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stdenv,
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# gpus :: List Gpu
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gpus,
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}:
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let
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inherit (lib)
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asserts
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attrsets
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lists
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strings
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trivial
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;
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inherit (stdenv) hostPlatform;
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# Flags are determined based on your CUDA toolkit by default. You may benefit
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# from improved performance, reduced file size, or greater hardware support by
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# passing a configuration based on your specific GPU environment.
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#
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# cudaCapabilities :: List Capability
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# List of hardware generations to build.
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# E.g. [ "8.0" ]
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# Currently, the last item is considered the optional forward-compatibility arch,
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# but this may change in the future.
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#
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# cudaForwardCompat :: Bool
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# Whether to include the forward compatibility gencode (+PTX)
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# to support future GPU generations.
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# E.g. true
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#
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# Please see the accompanying documentation or https://github.com/NixOS/nixpkgs/pull/205351
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# isSupported :: Gpu -> Bool
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isSupported =
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gpu:
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let
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inherit (gpu) minCudaVersion maxCudaVersion;
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lowerBoundSatisfied = strings.versionAtLeast cudaVersion minCudaVersion;
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upperBoundSatisfied =
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(maxCudaVersion == null) || !(strings.versionOlder maxCudaVersion cudaVersion);
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in
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lowerBoundSatisfied && upperBoundSatisfied;
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# NOTE: Jetson is never built by default.
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# isDefault :: Gpu -> Bool
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isDefault =
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gpu:
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let
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inherit (gpu) dontDefaultAfter isJetson;
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newGpu = dontDefaultAfter == null;
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recentGpu = newGpu || strings.versionAtLeast dontDefaultAfter cudaVersion;
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in
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recentGpu && !isJetson;
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# supportedGpus :: List Gpu
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# GPUs which are supported by the provided CUDA version.
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supportedGpus = builtins.filter isSupported gpus;
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# defaultGpus :: List Gpu
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# GPUs which are supported by the provided CUDA version and we want to build for by default.
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defaultGpus = builtins.filter isDefault supportedGpus;
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# supportedCapabilities :: List Capability
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supportedCapabilities = lists.map (gpu: gpu.computeCapability) supportedGpus;
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# defaultCapabilities :: List Capability
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# The default capabilities to target, if not overridden by the user.
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defaultCapabilities = lists.map (gpu: gpu.computeCapability) defaultGpus;
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# cudaArchNameToVersions :: AttrSet String (List String)
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# Maps the name of a GPU architecture to different versions of that architecture.
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# For example, "Ampere" maps to [ "8.0" "8.6" "8.7" ].
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cudaArchNameToVersions = lists.groupBy' (versions: gpu: versions ++ [ gpu.computeCapability ]) [ ] (
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gpu: gpu.archName
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) supportedGpus;
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# cudaComputeCapabilityToName :: AttrSet String String
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# Maps the version of a GPU architecture to the name of that architecture.
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# For example, "8.0" maps to "Ampere".
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cudaComputeCapabilityToName = builtins.listToAttrs (
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lists.map (gpu: attrsets.nameValuePair gpu.computeCapability gpu.archName) supportedGpus
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);
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# cudaComputeCapabilityToIsJetson :: AttrSet String Boolean
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cudaComputeCapabilityToIsJetson = builtins.listToAttrs (
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lists.map (attrs: attrsets.nameValuePair attrs.computeCapability attrs.isJetson) supportedGpus
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);
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# jetsonComputeCapabilities :: List String
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jetsonComputeCapabilities = trivial.pipe cudaComputeCapabilityToIsJetson [
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(attrsets.filterAttrs (_: isJetson: isJetson))
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builtins.attrNames
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];
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# Find the intersection with the user-specified list of cudaCapabilities.
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# NOTE: Jetson devices are never built by default because they cannot be targeted along with
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# non-Jetson devices and require an aarch64 host platform. As such, if they're present anywhere,
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# they must be in the user-specified cudaCapabilities.
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# NOTE: We don't need to worry about mixes of Jetson and non-Jetson devices here -- there's
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# sanity-checking for all that in below.
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jetsonTargets = lists.intersectLists jetsonComputeCapabilities cudaCapabilities;
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# dropDot :: String -> String
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dropDot = ver: builtins.replaceStrings [ "." ] [ "" ] ver;
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# archMapper :: String -> List String -> List String
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# Maps a feature across a list of architecture versions to produce a list of architectures.
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# For example, "sm" and [ "8.0" "8.6" "8.7" ] produces [ "sm_80" "sm_86" "sm_87" ].
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archMapper = feat: lists.map (computeCapability: "${feat}_${dropDot computeCapability}");
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# gencodeMapper :: String -> List String -> List String
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# Maps a feature across a list of architecture versions to produce a list of gencode arguments.
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# For example, "sm" and [ "8.0" "8.6" "8.7" ] produces [ "-gencode=arch=compute_80,code=sm_80"
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# "-gencode=arch=compute_86,code=sm_86" "-gencode=arch=compute_87,code=sm_87" ].
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gencodeMapper =
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feat:
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lists.map (
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computeCapability:
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"-gencode=arch=compute_${dropDot computeCapability},code=${feat}_${dropDot computeCapability}"
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);
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# Maps Nix system to NVIDIA redist arch.
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# NOTE: We swap out the default `linux-sbsa` redist (for server-grade ARM chips) with the
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# `linux-aarch64` redist (which is for Jetson devices) if we're building any Jetson devices.
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# Since both are based on aarch64, we can only have one or the other, otherwise there's an
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# ambiguity as to which should be used.
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# NOTE: This function *will* be called by unsupported systems because `cudaPackages` is part of
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# `all-packages.nix`, which is evaluated on all systems. As such, we need to handle unsupported
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# systems gracefully.
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# getRedistArch :: String -> String
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getRedistArch =
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nixSystem:
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attrsets.attrByPath [ nixSystem ] "unsupported" {
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aarch64-linux = if jetsonTargets != [ ] then "linux-aarch64" else "linux-sbsa";
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x86_64-linux = "linux-x86_64";
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ppc64le-linux = "linux-ppc64le";
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x86_64-windows = "windows-x86_64";
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};
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# Maps NVIDIA redist arch to Nix system.
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# NOTE: This function *will* be called by unsupported systems because `cudaPackages` is part of
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# `all-packages.nix`, which is evaluated on all systems. As such, we need to handle unsupported
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# systems gracefully.
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# getNixSystem :: String -> String
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getNixSystem =
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redistArch:
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attrsets.attrByPath [ redistArch ] "unsupported-${redistArch}" {
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linux-sbsa = "aarch64-linux";
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linux-aarch64 = "aarch64-linux";
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linux-x86_64 = "x86_64-linux";
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linux-ppc64le = "ppc64le-linux";
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windows-x86_64 = "x86_64-windows";
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};
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formatCapabilities =
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{
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cudaCapabilities,
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enableForwardCompat ? true,
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}:
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rec {
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inherit cudaCapabilities enableForwardCompat;
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# archNames :: List String
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# E.g. [ "Turing" "Ampere" ]
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#
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# Unknown architectures are rendered as sm_XX gencode flags.
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archNames = lists.unique (
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lists.map (cap: cudaComputeCapabilityToName.${cap} or "sm_${dropDot cap}") cudaCapabilities
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);
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# realArches :: List String
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# The real architectures are physical architectures supported by the CUDA version.
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# E.g. [ "sm_75" "sm_86" ]
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realArches = archMapper "sm" cudaCapabilities;
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# virtualArches :: List String
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# The virtual architectures are typically used for forward compatibility, when trying to support
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# an architecture newer than the CUDA version allows.
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# E.g. [ "compute_75" "compute_86" ]
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virtualArches = archMapper "compute" cudaCapabilities;
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# arches :: List String
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# By default, build for all supported architectures and forward compatibility via a virtual
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# architecture for the newest supported architecture.
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# E.g. [ "sm_75" "sm_86" "compute_86" ]
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arches = realArches ++ lists.optional enableForwardCompat (lists.last virtualArches);
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# gencode :: List String
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# A list of CUDA gencode arguments to pass to NVCC.
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# E.g. [ "-gencode=arch=compute_75,code=sm_75" ... "-gencode=arch=compute_86,code=compute_86" ]
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gencode =
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let
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base = gencodeMapper "sm" cudaCapabilities;
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forward = gencodeMapper "compute" [ (lists.last cudaCapabilities) ];
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in
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base ++ lib.optionals enableForwardCompat forward;
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# gencodeString :: String
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# A space-separated string of CUDA gencode arguments to pass to NVCC.
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# E.g. "-gencode=arch=compute_75,code=sm_75 ... -gencode=arch=compute_86,code=compute_86"
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gencodeString = strings.concatStringsSep " " gencode;
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# cmakeCudaArchitecturesString :: String
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# A semicolon-separated string of CUDA capabilities without dots, suitable for passing to CMake.
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# E.g. "75;86"
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cmakeCudaArchitecturesString = strings.concatMapStringsSep ";" dropDot cudaCapabilities;
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# Jetson devices cannot be targeted by the same binaries which target non-Jetson devices. While
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# NVIDIA provides both `linux-aarch64` and `linux-sbsa` packages, which both target `aarch64`,
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# they are built with different settings and cannot be mixed.
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# isJetsonBuild :: Boolean
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isJetsonBuild =
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let
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requestedJetsonDevices = lists.filter (
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cap: cudaComputeCapabilityToIsJetson.${cap} or false
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) cudaCapabilities;
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requestedNonJetsonDevices = lists.filter (
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cap: !(builtins.elem cap requestedJetsonDevices)
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) cudaCapabilities;
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jetsonBuildSufficientCondition = requestedJetsonDevices != [ ];
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jetsonBuildNecessaryCondition = requestedNonJetsonDevices == [ ] && hostPlatform.isAarch64;
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in
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trivial.throwIf (jetsonBuildSufficientCondition && !jetsonBuildNecessaryCondition) ''
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Jetson devices cannot be targeted with non-Jetson devices. Additionally, they require hostPlatform to be aarch64.
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You requested ${builtins.toJSON cudaCapabilities} for host platform ${hostPlatform.system}.
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Requested Jetson devices: ${builtins.toJSON requestedJetsonDevices}.
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Requested non-Jetson devices: ${builtins.toJSON requestedNonJetsonDevices}.
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Exactly one of the following must be true:
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- All CUDA capabilities belong to Jetson devices and hostPlatform is aarch64.
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- No CUDA capabilities belong to Jetson devices.
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See ${./gpus.nix} for a list of architectures supported by this version of Nixpkgs.
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'' jetsonBuildSufficientCondition
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&& jetsonBuildNecessaryCondition;
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};
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in
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# When changing names or formats: pause, validate, and update the assert
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assert
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let
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expected = {
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cudaCapabilities = [
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"7.5"
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"8.6"
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];
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enableForwardCompat = true;
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archNames = [
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"Turing"
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"Ampere"
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];
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realArches = [
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"sm_75"
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"sm_86"
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];
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virtualArches = [
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"compute_75"
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"compute_86"
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];
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arches = [
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"sm_75"
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"sm_86"
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"compute_86"
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];
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gencode = [
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"-gencode=arch=compute_75,code=sm_75"
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"-gencode=arch=compute_86,code=sm_86"
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"-gencode=arch=compute_86,code=compute_86"
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];
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gencodeString = "-gencode=arch=compute_75,code=sm_75 -gencode=arch=compute_86,code=sm_86 -gencode=arch=compute_86,code=compute_86";
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cmakeCudaArchitecturesString = "75;86";
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isJetsonBuild = false;
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};
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actual = formatCapabilities {
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cudaCapabilities = [
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"7.5"
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"8.6"
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];
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};
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actualWrapped = (builtins.tryEval (builtins.deepSeq actual actual)).value;
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in
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asserts.assertMsg ((strings.versionAtLeast cudaVersion "11.2") -> (expected == actualWrapped)) ''
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This test should only fail when using a version of CUDA older than 11.2, the first to support
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8.6.
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Expected: ${builtins.toJSON expected}
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Actual: ${builtins.toJSON actualWrapped}
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'';
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# Check mixed Jetson and non-Jetson devices
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assert
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let
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expected = false;
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actual = formatCapabilities {
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cudaCapabilities = [
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"7.2"
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"7.5"
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];
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};
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actualWrapped = (builtins.tryEval (builtins.deepSeq actual actual)).value;
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in
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asserts.assertMsg (expected == actualWrapped) ''
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Jetson devices capabilities cannot be mixed with non-jetson devices.
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Capability 7.5 is non-Jetson and should not be allowed with Jetson 7.2.
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Expected: ${builtins.toJSON expected}
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Actual: ${builtins.toJSON actualWrapped}
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'';
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# Check Jetson-only
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assert
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let
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expected = {
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cudaCapabilities = [
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"6.2"
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"7.2"
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];
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enableForwardCompat = true;
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archNames = [
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"Pascal"
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"Volta"
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];
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realArches = [
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"sm_62"
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"sm_72"
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];
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virtualArches = [
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"compute_62"
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"compute_72"
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];
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arches = [
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"sm_62"
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"sm_72"
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"compute_72"
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];
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gencode = [
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"-gencode=arch=compute_62,code=sm_62"
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"-gencode=arch=compute_72,code=sm_72"
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"-gencode=arch=compute_72,code=compute_72"
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];
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gencodeString = "-gencode=arch=compute_62,code=sm_62 -gencode=arch=compute_72,code=sm_72 -gencode=arch=compute_72,code=compute_72";
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cmakeCudaArchitecturesString = "62;72";
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isJetsonBuild = true;
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};
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actual = formatCapabilities {
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cudaCapabilities = [
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"6.2"
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"7.2"
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];
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};
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actualWrapped = (builtins.tryEval (builtins.deepSeq actual actual)).value;
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in
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asserts.assertMsg
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# We can't do this test unless we're targeting aarch64
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(hostPlatform.isAarch64 -> (expected == actualWrapped))
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''
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Jetson devices can only be built with other Jetson devices.
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Both 6.2 and 7.2 are Jetson devices.
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Expected: ${builtins.toJSON expected}
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Actual: ${builtins.toJSON actualWrapped}
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'';
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{
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# formatCapabilities :: { cudaCapabilities: List Capability, enableForwardCompat: Boolean } -> { ... }
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inherit formatCapabilities;
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# cudaArchNameToVersions :: String => String
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inherit cudaArchNameToVersions;
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# cudaComputeCapabilityToName :: String => String
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inherit cudaComputeCapabilityToName;
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# dropDot :: String -> String
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inherit dropDot;
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inherit
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defaultCapabilities
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supportedCapabilities
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jetsonComputeCapabilities
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jetsonTargets
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getNixSystem
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getRedistArch
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;
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}
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// formatCapabilities {
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cudaCapabilities = if cudaCapabilities == [ ] then defaultCapabilities else cudaCapabilities;
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enableForwardCompat = cudaForwardCompat;
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}
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