123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288 |
- /******************************************************************************
- * Copyright (c) 2024, Jay Shah, Ganesh Bikshandi, Ying Zhang, Vijay Thakkar, Pradeep Ramani, Tri Dao.
- ******************************************************************************/
- #pragma once
- #include "cute/tensor.hpp"
- #include <cutlass/cutlass.h>
- #include <cutlass/arch/reg_reconfig.h>
- #include <cutlass/array.h>
- #include <cutlass/numeric_types.h>
- #include <cutlass/numeric_conversion.h>
- #include <cutlass/kernel_hardware_info.h>
- #include "cutlass/pipeline/pipeline.hpp"
- #include "utils.h"
- namespace flash {
- using namespace cute;
- template <class CollectiveMainloop_, class CollectiveEpilogue_, class TileScheduler_>
- class FlashAttnBwd {
- public:
- // Type Aliases
- static constexpr bool Is_causal = CollectiveMainloop_::Is_causal;
- static constexpr bool Is_local = CollectiveMainloop_::Is_local;
- static_assert(CollectiveMainloop_::Varlen == CollectiveEpilogue_::Varlen);
- static constexpr bool Varlen = CollectiveMainloop_::Varlen;
- // Mainloop derived types
- using CollectiveMainloop = CollectiveMainloop_;
- using TileShape_MNK = typename CollectiveMainloop::TileShape_MNK;
- using TiledMmaSdP = typename CollectiveMainloop::TiledMmaSdP;
- using TiledMmadKV = typename CollectiveMainloop::TiledMmadKV;
- using ArchTag = typename CollectiveMainloop::ArchTag;
- using ClusterShape = typename CollectiveMainloop::ClusterShape;
- using MainloopArguments = typename CollectiveMainloop::Arguments;
- using MainloopParams = typename CollectiveMainloop::Params;
- static constexpr bool dKV_swapAB = CollectiveMainloop::dKV_swapAB;
- // Epilogue derived types
- using CollectiveEpilogue = CollectiveEpilogue_;
- using EpilogueArguments = typename CollectiveEpilogue::Arguments;
- using EpilogueParams = typename CollectiveEpilogue::Params;
- static_assert(ArchTag::kMinComputeCapability >= 90);
- using TileScheduler = TileScheduler_;
- using TileSchedulerArguments = typename flash::TileSchedulerArguments;
- using TileSchedulerParams = typename TileScheduler::Params;
- static constexpr uint32_t NumLoadWarpGroups = 1;
- static constexpr uint32_t NumMmaWarpGroups = CUTE_STATIC_V(size(TiledMmaSdP{})) / cutlass::NumThreadsPerWarpGroup;
- static constexpr uint32_t MaxThreadsPerBlock = CUTE_STATIC_V(size(TiledMmaSdP{})) + (NumLoadWarpGroups * cutlass::NumThreadsPerWarpGroup);
- static constexpr uint32_t MinBlocksPerMultiprocessor = 1;
- static_assert(NumMmaWarpGroups == 2 || NumMmaWarpGroups == 3);
- /// Register requirement for Load and Math WGs
- static constexpr uint32_t LoadRegisterRequirement = NumMmaWarpGroups == 2 ? 24 : 32;
- static constexpr uint32_t MmaRegisterRequirement = NumMmaWarpGroups == 2 ? 240 : 160;
- // If you want to print from the producer warp, you'd need to increase the number of registers
- // Otherwise you'll get CUDA error.
- // static constexpr uint32_t LoadRegisterRequirement = 40;
- // static constexpr uint32_t MmaRegisterRequirement = NumMmaWarpGroups == 2 ? 232 : 152;
- // Kernel level shared memory storage
- struct SharedStorage {
- struct TensorStorage : cute::aligned_struct<128> {
- union {
- typename CollectiveMainloop::TensorStorage mainloop;
- typename CollectiveEpilogue::TensorStorage epilogue;
- };
- } tensors;
- struct PipelineStorage : cute::aligned_struct<16> {
- alignas(16) cutlass::arch::ClusterTransactionBarrier barrier_KV;
- alignas(16) cutlass::arch::ClusterBarrier barrier_dKV;
- alignas(16) typename CollectiveMainloop::MainloopPipeline::SharedStorage pipeline_q;
- alignas(16) typename CollectiveMainloop::MainloopPipeline_dO::SharedStorage pipeline_do;
- alignas(16) typename TileScheduler::SharedStorage smem_scheduler;
- } pipelines;
- };
- static constexpr int SharedStorageSize = sizeof(SharedStorage);
- // Device side arguments
- struct Arguments {
- MainloopArguments mainloop{};
- EpilogueArguments epilogue{};
- cutlass::KernelHardwareInfo hw_info{};
- TileSchedulerArguments scheduler{};
- };
- // Kernel entry point API
- struct Params {
- MainloopParams mainloop{};
- EpilogueParams epilogue{};
- cutlass::KernelHardwareInfo hw_info{};
- TileSchedulerParams scheduler{};
- };
- //
- // Methods
- //
- // Convert to underlying arguments. In this case, a simple copy for the aliased type.
- static
- Params
- to_underlying_arguments(Arguments const& args) {
- CUTLASS_TRACE_HOST("to_underlying_arguments():");
- // Get SM count if needed, otherwise use user supplied SM count
- int sm_count = args.hw_info.sm_count;
- if (sm_count <= 0) {
- CUTLASS_TRACE_HOST(" WARNING: Arguments do not include a valid SM count.\n"
- " For optimal performance, populate the arguments KernelHardwareInfo struct with the SM count.");
- sm_count = cutlass::KernelHardwareInfo::query_device_multiprocessor_count(args.hw_info.device_id);
- }
- CUTLASS_TRACE_HOST("to_underlying_arguments(): Setting persistent grid SM count to " << sm_count);
- cutlass::KernelHardwareInfo hw_info{args.hw_info.device_id, sm_count};
- return {
- CollectiveMainloop::to_underlying_arguments(args.mainloop),
- CollectiveEpilogue::to_underlying_arguments(args.epilogue),
- hw_info,
- TileScheduler::to_underlying_arguments(args.scheduler)
- };
- }
- // Computes the kernel launch grid shape based on runtime parameters
- static dim3
- get_grid_shape(Params const& params) {
- return TileScheduler::get_grid_shape(params.scheduler, params.hw_info.sm_count);
- }
- static dim3
- get_block_shape() {
- return dim3(MaxThreadsPerBlock, 1, 1);
- }
- CUTLASS_DEVICE
- void
- operator()(Params const& params, char* smem_buf) {
- static constexpr int NumMmaThreads = NumMmaWarpGroups * cutlass::NumThreadsPerWarpGroup;
- static constexpr int NumCopyThreads = NumLoadWarpGroups * cutlass::NumThreadsPerWarpGroup;
- static constexpr int kBlockM = get<0>(TileShape_MNK{});
- static constexpr int kBlockN = get<1>(TileShape_MNK{});
- using MainloopPipeline = typename CollectiveMainloop::MainloopPipeline;
- using PipelineParams = typename MainloopPipeline::Params;
- using PipelineState = typename MainloopPipeline::PipelineState;
- using MainloopPipeline_dO = typename CollectiveMainloop::MainloopPipeline_dO;
- using PipelineParams_dO = typename MainloopPipeline_dO::Params;
- using PipelineState_dO = typename MainloopPipeline_dO::PipelineState;
- static constexpr bool Q_dO_same_stages = std::is_same_v<MainloopPipeline, MainloopPipeline_dO>;
- SharedStorage& shared_storage = *reinterpret_cast<SharedStorage*>(smem_buf);
- int const lane_predicate = cute::elect_one_sync();
- int const warp_idx = cutlass::canonical_warp_idx_sync();
- // Issue Tma Descriptor Prefetch from a single thread
- if (warp_idx == 0 && lane_predicate) {
- CollectiveMainloop::prefetch_tma_descriptors(params.mainloop);
- CollectiveEpilogue::prefetch_tma_descriptors(params.epilogue);
- }
- // Obtain warp index
- int const warp_group_thread_idx = threadIdx.x % cutlass::NumThreadsPerWarpGroup;
- PipelineParams pipeline_params;
- pipeline_params.transaction_bytes = CollectiveMainloop::TmaTransactionBytesQ + CollectiveMainloop::TmaTransactionBytesLSE;
- int warp_group_idx = cutlass::canonical_warp_group_idx();
- pipeline_params.role = warp_group_idx == 0
- ? MainloopPipeline::ThreadCategory::Producer
- : MainloopPipeline::ThreadCategory::Consumer;
- pipeline_params.is_leader = warp_group_thread_idx == 0;
- pipeline_params.num_consumers = NumMmaThreads;
- if (warp_idx == 0 && lane_predicate) {
- shared_storage.pipelines.barrier_KV.init(1 /*numThreads*/);
- // shared_storage.barrier_dKV.init(size(ClusterShape{}) /*numThreads*/);
- }
- // We're counting on pipeline_q to call cutlass::arch::fence_barrier_init();
- MainloopPipeline pipeline_q(shared_storage.pipelines.pipeline_q, pipeline_params, ClusterShape{});
- auto role_dO = warp_group_idx == 0
- ? MainloopPipeline_dO::ThreadCategory::Producer
- : MainloopPipeline_dO::ThreadCategory::Consumer;
- PipelineParams_dO pipeline_params_dO {pipeline_params.transaction_bytes, role_dO, pipeline_params.is_leader, pipeline_params.num_consumers};
- MainloopPipeline_dO pipeline_do(shared_storage.pipelines.pipeline_do, cute::conditional_return<Q_dO_same_stages>(pipeline_params, pipeline_params_dO), ClusterShape{});
- CollectiveMainloop collective_mainloop;
- CollectiveEpilogue collective_epilogue;
- // We need this to guarantee that the Pipeline init is visible to all producers and consumer blocks in the Cluster
- if constexpr (size(ClusterShape{}) > 1) {
- cute::cluster_arrive_relaxed();
- cute::cluster_wait();
- } else {
- __syncthreads();
- }
- if (warp_group_idx == 0) { // Producer
- cutlass::arch::warpgroup_reg_dealloc<LoadRegisterRequirement>();
- int warp_idx_in_warpgroup = __shfl_sync(0xffffffff, (threadIdx.x / 32) % 4, 0);
- if (warp_idx_in_warpgroup == 0) { // Load K, V, and do TMA on Q and dO
- PipelineState smem_pipe_write = cutlass::make_producer_start_state<MainloopPipeline>();
- PipelineState_dO smem_pipe_write_do = cutlass::make_producer_start_state<MainloopPipeline_dO>();
- TileScheduler scheduler(reinterpret_cast<typename TileScheduler::SharedStorage*>(&shared_storage.pipelines.smem_scheduler));
- for (auto work_tile_info = scheduler.template get_initial_work</*IsProducerWarp=*/true>(params.scheduler);
- work_tile_info.is_valid(params.scheduler);
- work_tile_info = scheduler.template get_next_work</*IsProducerWarp=*/true>(params.scheduler, work_tile_info)) {
- auto block_coord_ = work_tile_info.get_block_coord(params.scheduler);
- auto [n_block, bidh, bidb, _ /*split_idx*/] = block_coord_;
- cute::tuple<int32_t, int32_t, int32_t> block_coord = {n_block, bidh, bidb};
- auto scheduler_prefetch = [&scheduler, ¶ms, &work_tile_info]() {
- scheduler.prefetch_next_work(params.scheduler, work_tile_info);
- };
- collective_mainloop.load(params.mainloop, pipeline_q, pipeline_do, smem_pipe_write,
- smem_pipe_write_do, shared_storage, scheduler_prefetch, block_coord);
- }
- collective_mainloop.load_tail(pipeline_q, pipeline_do, smem_pipe_write, smem_pipe_write_do);
- } else if (warp_idx_in_warpgroup == 1) {
- TileScheduler scheduler(reinterpret_cast<typename TileScheduler::SharedStorage*>(&shared_storage.pipelines.smem_scheduler));
- for (auto work_tile_info = scheduler.template get_initial_work</*IsProducerWarp=*/false>(params.scheduler);
- work_tile_info.is_valid(params.scheduler);
- work_tile_info = scheduler.template get_next_work</*IsProducerWarp=*/false>(params.scheduler, work_tile_info)) {
- auto block_coord_ = work_tile_info.get_block_coord(params.scheduler);
- auto [n_block, bidh, bidb, _ /*split_idx*/] = block_coord_;
- cute::tuple<int32_t, int32_t, int32_t> block_coord = {n_block, bidh, bidb};
- collective_mainloop.store_dq(params.mainloop, shared_storage, block_coord);
- }
- }
- } else { // Consumer
- cutlass::arch::warpgroup_reg_alloc<MmaRegisterRequirement>();
- TileScheduler scheduler(reinterpret_cast<typename TileScheduler::SharedStorage*>(&shared_storage.pipelines.smem_scheduler));
- // Initialize matmul objects.
- TiledMmadKV tiled_mma_dKV;
- PipelineState smem_pipe_read;
- PipelineState_dO smem_pipe_read_do;
- collective_mainloop.mma_init();
- scheduler.init_consumer();
- int work_idx = 0;
- CUTLASS_PRAGMA_NO_UNROLL
- for (auto work_tile_info = scheduler.template get_initial_work</*IsProducerWarp=*/false>(params.scheduler);
- work_tile_info.is_valid(params.scheduler);
- work_tile_info = scheduler.template get_next_work</*IsProducerWarp=*/false>(params.scheduler, work_tile_info)) {
- auto block_coord_ = work_tile_info.get_block_coord(params.scheduler);
- auto [n_block, bidh, bidb, _ /*split_idx*/] = block_coord_;
- cute::tuple<int32_t, int32_t, int32_t> block_coord = {n_block, bidh, bidb};
- // dK and dV output accumulator.
- Tensor tdKrdK = partition_fragment_C(tiled_mma_dKV, select<!dKV_swapAB ? 1 : 2, !dKV_swapAB? 2 : 1>(TileShape_MNK{}));
- Tensor tdVrdV = partition_fragment_C(tiled_mma_dKV, select<!dKV_swapAB ? 1 : 2, !dKV_swapAB? 2 : 1>(TileShape_MNK{}));
- bool tile_valid = collective_mainloop.mma(
- params.mainloop, pipeline_q, pipeline_do, smem_pipe_read, smem_pipe_read_do,
- tdKrdK, tdVrdV, threadIdx.x - NumCopyThreads, work_idx, block_coord, shared_storage);
- if (tile_valid) {
- collective_epilogue.store(params.epilogue, tdKrdK, tdVrdV, shared_storage, tiled_mma_dKV,
- threadIdx.x - NumCopyThreads, block_coord);
- } else {
- collective_epilogue.store_zero(params.epilogue, threadIdx.x - NumCopyThreads, block_coord);
- }
- }
- collective_epilogue.store_tail();
- }
- }
- };
- } // namespace flash
|