#pragma once #include "custom_mma_multistage.h" #include "custom_mma_pipelined.h" #include "cutlass/gemm/threadblock/mma_multistage.h" #include "cutlass/gemm/threadblock/mma_pipelined.h" template struct MakeCustomMma; template < typename Shape, typename IteratorA, typename SmemIteratorA, cutlass::arch::CacheOperation::Kind CacheOpA, typename IteratorB, typename SmemIteratorB, cutlass::arch::CacheOperation::Kind CacheOpB, typename ElementC, typename LayoutC, typename Policy, int Stages, cutlass::gemm::SharedMemoryClearOption SharedMemoryClear, int kMaxK> struct MakeCustomMma< cutlass::gemm::threadblock::MmaMultistage< Shape, IteratorA, SmemIteratorA, CacheOpA, IteratorB, SmemIteratorB, CacheOpB, ElementC, LayoutC, Policy, Stages, SharedMemoryClear>, kMaxK> { // Reduce the number of stages if we don't need that many static int constexpr kStages = kMaxK == cutlass::platform::numeric_limits::max() ? Stages : cutlass::const_min( Stages, (kMaxK + int(Shape::kK) - 1) / int(Shape::kK)); using Mma = cutlass::gemm::threadblock::CustomMmaMultistage< Shape, IteratorA, SmemIteratorA, CacheOpA, IteratorB, SmemIteratorB, CacheOpB, ElementC, LayoutC, Policy, kStages, SharedMemoryClear, kMaxK>; }; template < typename Shape, typename IteratorA, typename SmemIteratorA, typename IteratorB, typename SmemIteratorB, typename ElementC, typename LayoutC, typename Policy, int kMaxK> struct MakeCustomMma< cutlass::gemm::threadblock::MmaPipelined< Shape, IteratorA, SmemIteratorA, IteratorB, SmemIteratorB, ElementC, LayoutC, Policy>, kMaxK> { using Mma = cutlass::gemm::threadblock::CustomMmaPipelined< Shape, IteratorA, SmemIteratorA, IteratorB, SmemIteratorB, ElementC, LayoutC, Policy>; };