#pragma once #include #include "../../jit/compiler.hpp" #include "../../jit/device_runtime.hpp" #include "../../jit/kernel_runtime.hpp" #include "../../utils/exception.hpp" #include "../../utils/format.hpp" #include "../heuristics/sm90.hpp" #include "epilogue.hpp" #include "runtime_utils.hpp" namespace deep_gemm { class SM90FP8Gemm1D2DRuntime final: public LaunchRuntime { public: struct Args { int m, n, k, num_groups; const std::string& compiled_dims; const std::optional& epilogue_type; GemmConfig gemm_config; LaunchArgs launch_args; void *sfb, *grouped_layout; CUtensorMap tensor_map_a; CUtensorMap tensor_map_b; CUtensorMap tensor_map_d; CUtensorMap tensor_map_sfa; }; static std::string generate_impl(const Args& args) { return fmt::format(R"( #include using namespace deep_gemm; static void __instantiate_kernel() {{ auto ptr = reinterpret_cast(&sm90_fp8_gemm_1d2d_impl< {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {} >); }}; )", // TODO: add CD dtype get_compiled_dim(args.m, 'm', args.compiled_dims), get_compiled_dim(args.n, 'n', args.compiled_dims), get_compiled_dim(args.k, 'k', args.compiled_dims), args.num_groups, args.gemm_config.block_m, args.gemm_config.block_n, args.gemm_config.block_k, args.gemm_config.smem_config.swizzle_cd_mode, args.gemm_config.num_stages, args.gemm_config.num_last_stages, args.gemm_config.thread_config.num_tma_threads, args.gemm_config.thread_config.num_math_threads, args.gemm_config.multicast_config.num_multicast, args.gemm_config.multicast_config.is_multicast_on_a, args.gemm_config.num_sms, to_string(args.gemm_config.gemm_type), get_default_epilogue_type(args.epilogue_type)); } static void launch_impl(const KernelHandle& kernel, const LaunchConfigHandle& config, Args args) { // TODO: optimize `args` copy DG_CUDA_UNIFIED_CHECK(launch_kernel(kernel, config, args.sfb, args.grouped_layout, args.m, args.n, args.k, args.tensor_map_a, args.tensor_map_b, args.tensor_map_d, args.tensor_map_sfa)); } }; static void sm90_fp8_gemm_1d2d(const torch::Tensor& a, const torch::Tensor& sfa, const torch::Tensor& b, const torch::Tensor& sfb, const std::optional& c, const torch::Tensor& d, const int& m, const int& n, const int& k, const cute::UMMA::Major& major_a, const cute::UMMA::Major& major_b, const std::string& compiled_dims, const std::optional& epilogue_type = std::nullopt) { DG_HOST_ASSERT(not c.has_value() and d.scalar_type() == torch::kBFloat16); DG_HOST_ASSERT(major_a == cute::UMMA::Major::K and major_b == cute::UMMA::Major::K); const auto& aligned_k = align(k, 128); const auto& config = get_best_config( GemmType::Normal, KernelType::Kernel1D2D, m, n, k, 1, major_a, major_b, torch::kFloat8_e4m3fn, d.scalar_type(), c.has_value(), device_runtime->get_num_sms()); // Requires no TMA splits DG_HOST_ASSERT(config.smem_config.swizzle_a_mode == config.block_k); DG_HOST_ASSERT(config.smem_config.swizzle_b_mode == config.block_k); const auto& tensor_map_a = make_tma_a_desc(major_a, a, m, k, SM90ArchSpec::get_ab_load_block_m(config.multicast_config, config.block_m), config.block_k, static_cast(a.stride(get_non_contiguous_dim(major_a))), 1, config.smem_config.swizzle_a_mode); const auto& tensor_map_b = make_tma_b_desc(major_b, b, n, k, SM90ArchSpec::get_ab_load_block_n(config.multicast_config, config.block_n), config.block_k, static_cast(b.stride(get_non_contiguous_dim(major_b))), 1, config.smem_config.swizzle_b_mode); const auto& tensor_map_d = make_tma_cd_desc(d, m, static_cast(d.size(-1)), SM90ArchSpec::get_cd_store_block_m(config.block_m), SM90ArchSpec::get_cd_store_block_n(config.block_n), static_cast(d.stride(-2)), 1, config.smem_config.swizzle_cd_mode); const auto& tensor_map_sfa = make_tma_sf_desc(cute::UMMA::Major::MN, sfa, m, k, config.block_m, config.block_k, 1, 0); // Launch const SM90FP8Gemm1D2DRuntime::Args& args = { .m = m, .n = n, .k = aligned_k, .num_groups = 1, .compiled_dims = compiled_dims, .epilogue_type = epilogue_type, .gemm_config = config, .launch_args = LaunchArgs(config.num_sms, config.thread_config.num_threads, config.smem_config.smem_size, config.multicast_config.num_multicast), .sfb = sfb.data_ptr(), .grouped_layout = nullptr, .tensor_map_a = tensor_map_a, .tensor_map_b = tensor_map_b, .tensor_map_d = tensor_map_d, .tensor_map_sfa = tensor_map_sfa, }; const auto& code = SM90FP8Gemm1D2DRuntime::generate(args); const auto& runtime = compiler->build("sm90_fp8_gemm_1d2d", code); SM90FP8Gemm1D2DRuntime::launch(runtime, args); } static void sm90_m_grouped_fp8_gemm_contiguous_1d2d(const torch::Tensor& a, const torch::Tensor& sfa, const torch::Tensor& b, const torch::Tensor& sfb, const torch::Tensor& d, const torch::Tensor& m_indices, const int& num_groups, const int& m, const int& n, const int& k, const cute::UMMA::Major& major_a, const cute::UMMA::Major& major_b, const std::string& compiled_dims) { DG_HOST_ASSERT(d.scalar_type() == torch::kBFloat16); DG_HOST_ASSERT(major_a == cute::UMMA::Major::K and major_b == cute::UMMA::Major::K); const auto& aligned_k = align(k, 128); const auto& config = get_best_config( GemmType::MGroupedContiguous, KernelType::Kernel1D2D, m, n, k, 1, major_a, major_b, torch::kFloat8_e4m3fn, d.scalar_type(), false, device_runtime->get_num_sms()); // Requires no TMA splits DG_HOST_ASSERT(config.smem_config.swizzle_a_mode == config.block_k); DG_HOST_ASSERT(config.smem_config.swizzle_b_mode == config.block_k); const auto& tensor_map_a = make_tma_a_desc(major_a, a, m, k, SM90ArchSpec::get_ab_load_block_m(config.multicast_config, config.block_m), config.block_k, static_cast(a.stride(get_non_contiguous_dim(major_a))), 1, config.smem_config.swizzle_a_mode); const auto& tensor_map_b = make_tma_b_desc(major_b, b, n, k, SM90ArchSpec::get_ab_load_block_n(config.multicast_config, config.block_n), config.block_k, static_cast(b.stride(get_non_contiguous_dim(major_b))), num_groups, config.smem_config.swizzle_b_mode); const auto& tensor_map_d = make_tma_cd_desc(d, m, n, SM90ArchSpec::get_cd_store_block_m(config.block_m), SM90ArchSpec::get_cd_store_block_n(config.block_n), static_cast(d.stride(-2)), 1, config.smem_config.swizzle_cd_mode); const auto& tensor_map_sfa = make_tma_sf_desc(cute::UMMA::Major::MN, sfa, m, k, config.block_m, config.block_k, 1, 0); // Launch const SM90FP8Gemm1D2DRuntime::Args& args = { .m = m, .n = n, .k = aligned_k, .num_groups = num_groups, .compiled_dims = compiled_dims, .epilogue_type = std::nullopt, .gemm_config = config, .launch_args = LaunchArgs(config.num_sms, config.thread_config.num_threads, config.smem_config.smem_size, config.multicast_config.num_multicast), .sfb = sfb.data_ptr(), .grouped_layout = m_indices.data_ptr(), .tensor_map_a = tensor_map_a, .tensor_map_b = tensor_map_b, .tensor_map_d = tensor_map_d, .tensor_map_sfa = tensor_map_sfa, }; const auto& code = SM90FP8Gemm1D2DRuntime::generate(args); const auto& runtime = compiler->build("sm90_m_grouped_fp8_gemm_contiguous_1d2d", code); SM90FP8Gemm1D2DRuntime::launch(runtime, args); } static void sm90_m_grouped_fp8_gemm_masked_1d2d(const torch::Tensor& a, const torch::Tensor& sfa, const torch::Tensor& b, const torch::Tensor& sfb, const torch::Tensor& d, const torch::Tensor& masked_m, const int& num_groups, const int& m, const int& n, const int& k, const int& expected_m, const cute::UMMA::Major& major_a, const cute::UMMA::Major& major_b, const std::string& compiled_dims) { const auto& aligned_k = align(k, 128); DG_HOST_ASSERT(d.scalar_type() == torch::kBFloat16); DG_HOST_ASSERT(major_a == cute::UMMA::Major::K and major_b == cute::UMMA::Major::K); const auto& config = get_best_config( GemmType::MGroupedMasked, KernelType::Kernel1D2D, expected_m, n, k, num_groups, major_a, major_b, torch::kFloat8_e4m3fn, d.scalar_type(), false, device_runtime->get_num_sms()); // Requires no TMA splits DG_HOST_ASSERT(config.smem_config.swizzle_a_mode == config.block_k); DG_HOST_ASSERT(config.smem_config.swizzle_b_mode == config.block_k); const auto& tensor_map_a = make_tma_a_desc(major_a, a, m, k, SM90ArchSpec::get_ab_load_block_m(config.multicast_config, config.block_m), config.block_k, static_cast(a.stride(get_non_contiguous_dim(major_a))), num_groups, config.smem_config.swizzle_a_mode); const auto& tensor_map_b = make_tma_b_desc(major_b, b, n, k, SM90ArchSpec::get_ab_load_block_n(config.multicast_config, config.block_n), config.block_k, static_cast(b.stride(get_non_contiguous_dim(major_b))), num_groups, config.smem_config.swizzle_b_mode); const auto& tensor_map_d = make_tma_cd_desc(d, m, n, SM90ArchSpec::get_cd_store_block_m(config.block_m), SM90ArchSpec::get_cd_store_block_n(config.block_n), static_cast(d.stride(-2)), num_groups, config.smem_config.swizzle_cd_mode); const auto& tensor_map_sfa = make_tma_sf_desc(cute::UMMA::Major::MN, sfa, m, k, config.block_m, config.block_k, num_groups, 0); // Launch const SM90FP8Gemm1D2DRuntime::Args& args = { .m = m, .n = n, .k = aligned_k, .num_groups = num_groups, .compiled_dims = compiled_dims, .epilogue_type = std::nullopt, .gemm_config = config, .launch_args = LaunchArgs(config.num_sms, config.thread_config.num_threads, config.smem_config.smem_size, config.multicast_config.num_multicast), .sfb = sfb.data_ptr(), .grouped_layout = masked_m.data_ptr(), .tensor_map_a = tensor_map_a, .tensor_map_b = tensor_map_b, .tensor_map_d = tensor_map_d, .tensor_map_sfa = tensor_map_sfa, }; const auto& code = SM90FP8Gemm1D2DRuntime::generate(args); const auto& runtime = compiler->build("sm90_fp8_m_grouped_gemm_masked_1d2d", code); SM90FP8Gemm1D2DRuntime::launch(runtime, args); } } // namespace deep_gemm