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clang-p2996/mlir/lib/Conversion/LoopsToGPU/LoopsToGPUPass.cpp
Mehdi Amini 308571074c Mass update the MLIR license header to mention "Part of the LLVM project" 
This is an artifact from merging MLIR into LLVM, the file headers are
now aligned with the rest of the project.
2020-01-26 03:58:30 +00:00

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//===- LoopsToGPUPass.cpp - Convert a loop nest to a GPU kernel -----------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "mlir/Conversion/LoopsToGPU/LoopsToGPUPass.h"
#include "mlir/Conversion/LoopsToGPU/LoopsToGPU.h"
#include "mlir/Dialect/AffineOps/AffineOps.h"
#include "mlir/Dialect/LoopOps/LoopOps.h"
#include "mlir/Dialect/StandardOps/Ops.h"
#include "mlir/Pass/Pass.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/Support/CommandLine.h"
#define PASS_NAME "convert-loops-to-gpu"
#define LOOPOP_TO_GPU_PASS_NAME "convert-loop-op-to-gpu"
using namespace mlir;
using namespace mlir::loop;
static llvm::cl::OptionCategory clOptionsCategory(PASS_NAME " options");
static llvm::cl::opt<unsigned>
clNumBlockDims("gpu-block-dims",
llvm::cl::desc("Number of GPU block dimensions for mapping"),
llvm::cl::cat(clOptionsCategory), llvm::cl::init(1u));
static llvm::cl::opt<unsigned> clNumThreadDims(
"gpu-thread-dims",
llvm::cl::desc("Number of GPU thread dimensions for mapping"),
llvm::cl::cat(clOptionsCategory), llvm::cl::init(1u));
static llvm::cl::OptionCategory clLoopOpToGPUCategory(LOOPOP_TO_GPU_PASS_NAME
" options");
static llvm::cl::list<unsigned>
clNumWorkGroups("gpu-num-workgroups",
llvm::cl::desc("Num workgroups in the GPU launch"),
llvm::cl::ZeroOrMore, llvm::cl::MiscFlags::CommaSeparated,
llvm::cl::cat(clLoopOpToGPUCategory));
static llvm::cl::list<unsigned>
clWorkGroupSize("gpu-workgroup-size",
llvm::cl::desc("Workgroup Size in the GPU launch"),
llvm::cl::ZeroOrMore, llvm::cl::MiscFlags::CommaSeparated,
llvm::cl::cat(clLoopOpToGPUCategory));
namespace {
// A pass that traverses top-level loops in the function and converts them to
// GPU launch operations. Nested launches are not allowed, so this does not
// walk the function recursively to avoid considering nested loops.
struct ForLoopMapper : public FunctionPass<ForLoopMapper> {
ForLoopMapper(unsigned numBlockDims, unsigned numThreadDims)
: numBlockDims(numBlockDims), numThreadDims(numThreadDims) {}
void runOnFunction() override {
for (Block &block : getFunction())
for (Operation &op : llvm::make_early_inc_range(block)) {
if (auto forOp = dyn_cast<AffineForOp>(&op)) {
if (failed(convertAffineLoopNestToGPULaunch(forOp, numBlockDims,
numThreadDims)))
signalPassFailure();
} else if (auto forOp = dyn_cast<ForOp>(&op)) {
if (failed(convertLoopNestToGPULaunch(forOp, numBlockDims,
numThreadDims)))
signalPassFailure();
}
}
}
unsigned numBlockDims;
unsigned numThreadDims;
};
// A pass that traverses top-level loops in the function and convertes them to
// GPU launch operations. The top-level loops itself does not have to be
// perfectly nested. The only requirement is that there be as many perfectly
// nested loops as the size of `numWorkGroups`. Within these any loop nest has
// to be perfectly nested upto depth equal to size of `workGroupSize`.
struct ImperfectlyNestedForLoopMapper
: public FunctionPass<ImperfectlyNestedForLoopMapper> {
ImperfectlyNestedForLoopMapper(ArrayRef<int64_t> numWorkGroups,
ArrayRef<int64_t> workGroupSize)
: numWorkGroups(numWorkGroups.begin(), numWorkGroups.end()),
workGroupSize(workGroupSize.begin(), workGroupSize.end()) {}
void runOnFunction() override {
// Insert the num work groups and workgroup sizes as constant values. This
// pass is only used for testing.
FuncOp funcOp = getFunction();
OpBuilder builder(funcOp.getOperation()->getRegion(0));
SmallVector<Value, 3> numWorkGroupsVal, workGroupSizeVal;
for (auto val : numWorkGroups) {
auto constOp = builder.create<ConstantOp>(
funcOp.getLoc(), builder.getIntegerAttr(builder.getIndexType(), val));
numWorkGroupsVal.push_back(constOp);
}
for (auto val : workGroupSize) {
auto constOp = builder.create<ConstantOp>(
funcOp.getLoc(), builder.getIntegerAttr(builder.getIndexType(), val));
workGroupSizeVal.push_back(constOp);
}
for (Block &block : getFunction()) {
for (Operation &op : llvm::make_early_inc_range(block)) {
if (auto forOp = dyn_cast<ForOp>(&op)) {
if (failed(convertLoopToGPULaunch(forOp, numWorkGroupsVal,
workGroupSizeVal))) {
return signalPassFailure();
}
}
}
}
}
SmallVector<int64_t, 3> numWorkGroups;
SmallVector<int64_t, 3> workGroupSize;
};
} // namespace
std::unique_ptr<OpPassBase<FuncOp>>
mlir::createSimpleLoopsToGPUPass(unsigned numBlockDims,
unsigned numThreadDims) {
return std::make_unique<ForLoopMapper>(numBlockDims, numThreadDims);
}
std::unique_ptr<OpPassBase<FuncOp>>
mlir::createLoopToGPUPass(ArrayRef<int64_t> numWorkGroups,
ArrayRef<int64_t> workGroupSize) {
return std::make_unique<ImperfectlyNestedForLoopMapper>(numWorkGroups,
workGroupSize);
}
static PassRegistration<ForLoopMapper>
registration(PASS_NAME, "Convert top-level loops to GPU kernels", [] {
return std::make_unique<ForLoopMapper>(clNumBlockDims.getValue(),
clNumThreadDims.getValue());
});
static PassRegistration<ImperfectlyNestedForLoopMapper> loopOpToGPU(
LOOPOP_TO_GPU_PASS_NAME, "Convert top-level loop::ForOp to GPU kernels",
[] {
SmallVector<int64_t, 3> numWorkGroups, workGroupSize;
numWorkGroups.assign(clNumWorkGroups.begin(), clNumWorkGroups.end());
workGroupSize.assign(clWorkGroupSize.begin(), clWorkGroupSize.end());
return std::make_unique<ImperfectlyNestedForLoopMapper>(numWorkGroups,
workGroupSize);
});
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