116 lines
3.7 KiB
MLIR
116 lines
3.7 KiB
MLIR
// DEFINE: %{option} = enable-runtime-library=true
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// DEFINE: %{command} = mlir-opt %s --sparse-compiler=%{option} | \
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// DEFINE: TENSOR0="%mlir_src_dir/test/Integration/data/wide.mtx" \
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// DEFINE: mlir-cpu-runner \
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// DEFINE: -e entry -entry-point-result=void \
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// DEFINE: -shared-libs=%mlir_lib_dir/libmlir_c_runner_utils%shlibext | \
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// DEFINE: FileCheck %s
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//
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// RUN: %{command}
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//
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// Do the same run, but now with direct IR generation.
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// REDEFINE: %{option} = enable-runtime-library=false
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// RUN: %{command}
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//
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// Do the same run, but now with parallelization strategy.
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// REDEFINE: %{option} = "enable-runtime-library=true parallelization-strategy=any-storage-any-loop"
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// RUN: %{command}
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//
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// Do the same run, but now with direct IR generation and parallelization strategy.
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// REDEFINE: %{option} = "enable-runtime-library=false parallelization-strategy=any-storage-any-loop"
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// RUN: %{command}
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//
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// Do the same run, but now with direct IR generation and vectorization.
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// REDEFINE: %{option} = "enable-runtime-library=false vl=2 reassociate-fp-reductions=true enable-index-optimizations=true"
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// RUN: %{command}
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!Filename = !llvm.ptr<i8>
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#SparseMatrix = #sparse_tensor.encoding<{
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dimLevelType = [ "dense", "compressed" ],
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pointerBitWidth = 8,
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indexBitWidth = 8
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}>
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#matvec = {
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indexing_maps = [
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affine_map<(i,j) -> (i,j)>, // A
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affine_map<(i,j) -> (j)>, // b
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affine_map<(i,j) -> (i)> // x (out)
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],
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iterator_types = ["parallel", "reduction"],
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doc = "X(i) += A(i,j) * B(j)"
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}
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//
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// Integration test that lowers a kernel annotated as sparse to
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// actual sparse code, initializes a matching sparse storage scheme
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// from file, and runs the resulting code with the JIT compiler.
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//
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module {
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//
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// A kernel that multiplies a sparse matrix A with a dense vector b
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// into a dense vector x.
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//
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func.func @kernel_matvec(%arga: tensor<?x?xi32, #SparseMatrix>,
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%argb: tensor<?xi32>,
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%argx: tensor<?xi32>)
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-> tensor<?xi32> {
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%0 = linalg.generic #matvec
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ins(%arga, %argb: tensor<?x?xi32, #SparseMatrix>, tensor<?xi32>)
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outs(%argx: tensor<?xi32>) {
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^bb(%a: i32, %b: i32, %x: i32):
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%0 = arith.muli %a, %b : i32
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%1 = arith.addi %x, %0 : i32
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linalg.yield %1 : i32
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} -> tensor<?xi32>
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return %0 : tensor<?xi32>
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}
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func.func private @getTensorFilename(index) -> (!Filename)
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//
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// Main driver that reads matrix from file and calls the sparse kernel.
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//
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func.func @entry() {
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%i0 = arith.constant 0 : i32
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%c0 = arith.constant 0 : index
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%c1 = arith.constant 1 : index
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%c4 = arith.constant 4 : index
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%c256 = arith.constant 256 : index
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// Read the sparse matrix from file, construct sparse storage.
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%fileName = call @getTensorFilename(%c0) : (index) -> (!Filename)
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%a = sparse_tensor.new %fileName : !Filename to tensor<?x?xi32, #SparseMatrix>
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// Initialize dense vectors.
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%b = tensor.generate %c256 {
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^bb0(%i : index):
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%k = arith.addi %i, %c1 : index
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%j = arith.index_cast %k : index to i32
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tensor.yield %j : i32
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} : tensor<?xi32>
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%x = tensor.generate %c4 {
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^bb0(%i : index):
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tensor.yield %i0 : i32
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} : tensor<?xi32>
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// Call kernel.
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%0 = call @kernel_matvec(%a, %b, %x)
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: (tensor<?x?xi32, #SparseMatrix>, tensor<?xi32>, tensor<?xi32>) -> tensor<?xi32>
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// Print the result for verification.
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//
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// CHECK: ( 889, 1514, -21, -3431 )
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//
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%v = vector.transfer_read %0[%c0], %i0: tensor<?xi32>, vector<4xi32>
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vector.print %v : vector<4xi32>
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// Release the resources.
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bufferization.dealloc_tensor %a : tensor<?x?xi32, #SparseMatrix>
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return
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}
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}
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