mirror of
https://github.com/zebrajr/pytorch.git
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a6b358d53b
Test Plan: revert-hammer
Differential Revision:
D28461013 (c76405d3b1)
Original commit changeset: 79a80b6ffb65
fbshipit-source-id: d9cc5c512542153f39664635fb080d797a9de7d0
112 lines
3.3 KiB
C++
112 lines
3.3 KiB
C++
#include <torch/csrc/jit/codegen/fuser/interface.h>
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#include <torch/csrc/jit/codegen/fuser/compiler.h>
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#include <torch/csrc/jit/codegen/fuser/executor.h>
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#include <torch/csrc/jit/codegen/fuser/fallback.h>
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#include <torch/csrc/jit/codegen/fuser/kernel_cache.h>
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#include <c10/util/Flags.h>
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#include <stdexcept>
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// NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
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C10_DEFINE_bool(torch_jit_enable_cpu_fusion, false, "enable cpu fusion");
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namespace torch {
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namespace jit {
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namespace detail {
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// Note: CPU fusion is currently disabled due to test flakiness
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// NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
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bool cpu_fuser_enabled = false;
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// NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
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bool gpu_fuser_enabled = true;
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} // namespace detail
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int64_t registerFusion(const Node* fusion_group) {
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return fuser::registerFusion(fusion_group);
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}
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void runFusion(const int64_t key, Stack& stack) {
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const auto result = fuser::runFusion(key, stack);
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if (!result)
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fuser::runFallback(key, stack);
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}
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bool canFuseOnCPU() {
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return fuser::hasFusionBackend(DeviceType::CPU) &&
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(detail::cpu_fuser_enabled || FLAGS_torch_jit_enable_cpu_fusion);
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}
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bool canFuseOnGPU() {
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return fuser::hasFusionBackend(DeviceType::CUDA) && detail::gpu_fuser_enabled;
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}
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void overrideCanFuseOnCPU(bool value) {
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detail::cpu_fuser_enabled = value;
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}
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void overrideCanFuseOnGPU(bool value) {
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detail::gpu_fuser_enabled = value;
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}
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// Uses the above interface by stuffing the graph into a node and treating that
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// node as a fusion group.
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std::vector<at::Tensor> debugLaunchGraph(
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Graph& graph,
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at::ArrayRef<at::Tensor> inputs) {
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// Creates a fusion group node
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auto wrapper_graph = std::make_shared<Graph>();
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Node* fusion_group = wrapper_graph->insertNode(
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wrapper_graph->createWithSubgraph(prim::FusionGroup));
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fusion_group->g_(attr::Subgraph, graph.copy());
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for (size_t i = 0; i < graph.inputs().size(); ++i) {
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fusion_group->addInput(wrapper_graph->addInput());
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}
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for (size_t i = 0; i < graph.outputs().size(); ++i) {
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wrapper_graph->registerOutput(fusion_group->addOutput());
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}
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// Creates the stack, registers and runs the fusion
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Stack stack = fmap<IValue>(inputs);
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const auto key = fuser::registerFusion(fusion_group);
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fuser::runFusion(key, stack);
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return fmap(stack, [](const IValue& iv) { return iv.toTensor(); });
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}
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std::string debugGetFusedKernelCode(
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Graph& graph,
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at::ArrayRef<at::Tensor> inputs) {
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// Creates a fusion group node
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auto wrapper_graph = std::make_shared<Graph>();
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Node* fusion_group = wrapper_graph->insertNode(
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wrapper_graph->createWithSubgraph(prim::FusionGroup));
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fusion_group->g_(attr::Subgraph, graph.copy());
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for (size_t i = 0; i < graph.inputs().size(); ++i) {
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fusion_group->addInput(wrapper_graph->addInput());
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}
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for (size_t i = 0; i < graph.outputs().size(); ++i) {
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wrapper_graph->registerOutput(fusion_group->addOutput());
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}
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// Creates the stack, registers and runs the fusion
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Stack stack = fmap<IValue>(inputs);
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const auto key = fuser::registerFusion(fusion_group);
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std::string code;
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if (!fuser::runFusion(key, stack, &code)) {
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throw std::runtime_error("Could not run fusion for graph");
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}
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return code;
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}
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size_t nCompiledKernels() {
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return fuser::nCompiledKernels();
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}
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} // namespace jit
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} // namespace torch
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