/*************************************************************************************************** * Copyright (c) 2017 - 2025 NVIDIA CORPORATION & AFFILIATES. All rights reserved. * SPDX-License-Identifier: BSD-3-Clause * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * **************************************************************************************************/ /*! \file \brief Epilogue for threadblock scoped GEMMs using SIMT. The epilogue rearranges the result of a matrix product through shared memory to match canonical tensor layouts in global memory. Epilogues support conversion and reduction operations. */ #pragma once #include "cutlass/cutlass.h" #include "cutlass/numeric_types.h" #include "cutlass/array.h" #include "cutlass/arch/mma.h" #include "cutlass/gemm/gemm.h" #include "cutlass/gemm/warp/mma.h" #include "cutlass/epilogue/thread/linear_combination.h" #include "cutlass/epilogue/thread/linear_combination_clamp.h" #include "cutlass/epilogue/thread/linear_combination_relu.h" #include "cutlass/epilogue/thread/linear_combination_gelu.h" #include "cutlass/epilogue/thread/linear_combination_sigmoid.h" #include "cutlass/epilogue/thread/linear_combination_planar_complex.h" #include "cutlass/epilogue/thread/conversion_op.h" #include "cutlass/epilogue/thread/reduction_op.h" #include "cutlass/transform/threadblock/regular_tile_iterator_pitch_linear.h" #include "cutlass/epilogue/warp/fragment_iterator_simt.h" #include "cutlass/epilogue/warp/tile_iterator_simt.h" #include "cutlass/epilogue/threadblock/default_thread_map_simt.h" #include "cutlass/transform/pitch_linear_thread_map.h" #include "cutlass/epilogue/threadblock/predicated_tile_iterator.h" #include "cutlass/epilogue/threadblock/predicated_tile_iterator_conv.h" #include "cutlass/epilogue/threadblock/predicated_tile_iterator_strided_dgrad.h" #include "cutlass/epilogue/threadblock/predicated_tile_iterator_affine.h" #include "cutlass/epilogue/threadblock/predicated_tile_iterator_direct_conv.h" #include "cutlass/epilogue/threadblock/shared_load_iterator.h" #include "cutlass/epilogue/threadblock/shared_load_iterator_pitch_linear.h" #include "cutlass/epilogue/threadblock/epilogue.h" #include "cutlass/epilogue/threadblock/epilogue_depthwise.h" #include "cutlass/layout/permute.h" ///////////////////////////////////////////////////////////////////////////////////////////////// namespace cutlass { namespace epilogue { namespace threadblock { ///////////////////////////////////////////////////////////////////////////////////////////////// /// Defines sensible defaults for epilogues for SimtOps. template < typename Shape_, typename WarpMmaSimt_, typename OutputOp_, int ElementsPerAccess, bool ScatterD = false, typename PermuteDLayout = layout::NoPermute, conv::StrideSupport StrideSupport = conv::StrideSupport::kUnity, int Rank = 4 > struct DefaultEpilogueSimt { using Shape = Shape_; using WarpMmaSimt = WarpMmaSimt_; using OutputOp = OutputOp_; static int const kElementsPerAccess = ElementsPerAccess; static const int kPartitionsK = Shape::kK / WarpMmaSimt::Shape::kK; using ElementOutput = typename OutputOp::ElementOutput; using LayoutC = typename WarpMmaSimt::LayoutC; using ElementAccumulator = typename WarpMmaSimt::ElementC; static conv::StrideSupport const kStrideSupport = StrideSupport; static int const kRank = Rank; // // Thread map // using OutputTileThreadMap = typename cutlass::epilogue::threadblock::DefaultThreadMapSimt< Shape, typename WarpMmaSimt::Shape, typename WarpMmaSimt::Policy, kPartitionsK, ElementOutput, kElementsPerAccess >::Type; static bool const UseCUDAStore = platform::is_same::value; using PackedOutputTileIterator = cutlass::epilogue::threadblock::PredicatedTileIterator< OutputTileThreadMap, ElementOutput, ScatterD, PermuteDLayout, UseCUDAStore >; using StridedOutputTileIterator = cutlass::epilogue::threadblock::PredicatedTileIteratorConv< OutputTileThreadMap, ElementOutput, ScatterD, PermuteDLayout, UseCUDAStore, kRank >; using OutputTileIterator = typename platform::conditional::type; using AccumulatorFragmentIterator = cutlass::epilogue::warp::FragmentIteratorSimt< typename WarpMmaSimt::Shape, typename WarpMmaSimt::ThreadMma, layout::RowMajor, typename WarpMmaSimt::Policy >; using WarpTileIterator = cutlass::epilogue::warp::TileIteratorSimt< typename WarpMmaSimt::Shape, typename WarpMmaSimt::ThreadMma, ElementAccumulator, layout::RowMajor, typename WarpMmaSimt::Policy >; using SharedLoadIterator = cutlass::epilogue::threadblock::SharedLoadIterator< typename OutputTileThreadMap::CompactedThreadMap, ElementAccumulator >; /// Hard-coded padding elements added using Padding = typename WarpTileIterator::Padding; // // Define the epilogue // using Epilogue = cutlass::epilogue::threadblock::Epilogue< Shape, WarpMmaSimt, kPartitionsK, OutputTileIterator, AccumulatorFragmentIterator, WarpTileIterator, SharedLoadIterator, OutputOp, Padding >; }; ///////////////////////////////////////////////////////////////////////////////////////////////// /// Defines sensible defaults for epilogues for SimtOps. template < typename Shape_, typename WarpMmaSimt_, typename OutputOp_, int ElementsPerAccess > struct DefaultEpilogueSimtStridedDgrad { using Shape = Shape_; using WarpMmaSimt = WarpMmaSimt_; using OutputOp = OutputOp_; static int const kElementsPerAccess = ElementsPerAccess; static const int kPartitionsK = Shape::kK / WarpMmaSimt::Shape::kK; using ElementOutput = typename OutputOp::ElementOutput; using LayoutC = typename WarpMmaSimt::LayoutC; using ElementAccumulator = typename WarpMmaSimt::ElementC; // // Thread map // using OutputTileThreadMap = typename cutlass::epilogue::threadblock::DefaultThreadMapSimt< Shape, typename WarpMmaSimt::Shape, typename WarpMmaSimt::Policy, kPartitionsK, ElementOutput, kElementsPerAccess >::Type; using OutputTileIterator = cutlass::epilogue::threadblock::PredicatedTileIteratorStridedDgrad< OutputTileThreadMap, ElementOutput >; using AccumulatorFragmentIterator = cutlass::epilogue::warp::FragmentIteratorSimt< typename WarpMmaSimt::Shape, typename WarpMmaSimt::ThreadMma, layout::RowMajor, typename WarpMmaSimt::Policy >; using WarpTileIterator = cutlass::epilogue::warp::TileIteratorSimt< typename WarpMmaSimt::Shape, typename WarpMmaSimt::ThreadMma, ElementAccumulator, layout::RowMajor, typename WarpMmaSimt::Policy >; using SharedLoadIterator = cutlass::epilogue::threadblock::SharedLoadIterator< typename OutputTileThreadMap::CompactedThreadMap, ElementAccumulator >; /// Hard-coded padding elements added using Padding = typename WarpTileIterator::Padding; // // Define the epilogue // using Epilogue = cutlass::epilogue::threadblock::Epilogue< Shape, WarpMmaSimt, kPartitionsK, OutputTileIterator, AccumulatorFragmentIterator, WarpTileIterator, SharedLoadIterator, OutputOp, Padding >; }; ///////////////////////////////////////////////////////////////////////////////////////////////// /// Defines sensible defaults for epilogues for SimtOps. template < int Rank, typename Shape_, typename WarpMmaSimt_, typename OutputOp_, int ElementsPerAccess > struct DefaultEpilogueSimtAffineRankN { using Shape = Shape_; using WarpMmaSimt = WarpMmaSimt_; using OutputOp = OutputOp_; static int const kElementsPerAccess = ElementsPerAccess; static const int kPartitionsK = Shape::kK / WarpMmaSimt::Shape::kK; using ElementOutput = typename OutputOp::ElementOutput; using LayoutC = typename WarpMmaSimt::LayoutC; using ElementAccumulator = typename WarpMmaSimt::ElementC; // // Thread map // using OutputTileThreadMap = typename cutlass::epilogue::threadblock::DefaultThreadMapSimt< Shape, typename WarpMmaSimt::Shape, typename WarpMmaSimt::Policy, kPartitionsK, ElementOutput, kElementsPerAccess >::Type; using OutputTileIterator = cutlass::epilogue::threadblock::PredicatedTileIteratorAffineRankN< OutputTileThreadMap, ElementOutput, Rank >; using AccumulatorFragmentIterator = cutlass::epilogue::warp::FragmentIteratorSimt< typename WarpMmaSimt::Shape, typename WarpMmaSimt::ThreadMma, layout::RowMajor, typename WarpMmaSimt::Policy >; using WarpTileIterator = cutlass::epilogue::warp::TileIteratorSimt< typename WarpMmaSimt::Shape, typename WarpMmaSimt::ThreadMma, ElementAccumulator, layout::RowMajor, typename WarpMmaSimt::Policy >; using SharedLoadIterator = cutlass::epilogue::threadblock::SharedLoadIterator< typename OutputTileThreadMap::CompactedThreadMap, ElementAccumulator >; /// Hard-coded padding elements added using Padding = typename WarpTileIterator::Padding; // // Define the epilogue // using Epilogue = cutlass::epilogue::threadblock::Epilogue< Shape, WarpMmaSimt, kPartitionsK, OutputTileIterator, AccumulatorFragmentIterator, WarpTileIterator, SharedLoadIterator, OutputOp, Padding >; }; ///////////////////////////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////////////////////////// /// Defines sensible defaults for epilogues for SimtOps. template , typename ThreadBlockOutputShape_ = cutlass::conv::TensorNHWCShape<1, 1, 1, 1> > struct DefaultDirectConvEpilogueSimt { using Shape = Shape_; using WarpMmaSimt = WarpMmaSimt_; using WarpShape = typename WarpMmaSimt::Shape; using OutputOp = OutputOp_; using ThreadOutputShape = ThreadOutputShape_; using ThreadBlockOutputShape = ThreadBlockOutputShape_; static int const kElementsPerAccess = ElementsPerAccess_; using ElementOutput = typename OutputOp::ElementOutput; using LayoutC = typename WarpMmaSimt::LayoutC; using ElementAccumulator = typename WarpMmaSimt::ElementC; /// Number of threads total using WarpCount = gemm::GemmShape< Shape::kM / WarpShape::kM, Shape::kN / WarpShape::kN >; static int const kWarpSize = cutlass::gemm::warp::WarpSize::value; static int const kThreads = WarpCount::kCount * kWarpSize; // // Thread map // using OutputTileThreadMap = cutlass::transform::PitchLinearStripminedThreadMap< layout::PitchLinearShape, kThreads, kElementsPerAccess >; using OutputTileIterator = cutlass::epilogue::threadblock::PredicatedTileIteratorDirectConv< OutputTileThreadMap, ElementOutput, ThreadOutputShape, ThreadBlockOutputShape >; using AccumulatorFragmentIterator = cutlass::epilogue::warp::FragmentIteratorSimt< typename WarpMmaSimt::Shape, typename WarpMmaSimt::ThreadMma, layout::RowMajor, typename WarpMmaSimt::Policy >; using WarpTileIterator = cutlass::epilogue::warp::TileIteratorSimtDirect2dConv< typename WarpMmaSimt::Shape, ThreadOutputShape, ThreadBlockOutputShape, typename WarpMmaSimt::ThreadMma, ElementAccumulator, layout::RowMajor, typename WarpMmaSimt::Policy >; using SharedLoadIterator = cutlass::epilogue::threadblock::SharedLoadIteratorPitchLinear< OutputTileThreadMap, ElementAccumulator >; /// Hard-coded padding elements added using Padding = typename WarpTileIterator::Padding; // // Define the epilogue // using Epilogue = cutlass::epilogue::threadblock::EpilogueDepthwise< Shape, ThreadOutputShape, ThreadBlockOutputShape, WarpMmaSimt, OutputTileIterator, AccumulatorFragmentIterator, WarpTileIterator, SharedLoadIterator, OutputOp, Padding >; }; ///////////////////////////////////////////////////////////////////////////////////////////////// } // namespace threadblock } // namespace epilogue } // namespace cutlass /////////////////////////////////////////////////////////////////////////////////////////////////