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Commit 08f8b586 authored by Mirza Halilcevic's avatar Mirza Halilcevic
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Merge branch 'ck_migraphx_integration' into codegen-enable-hiprtc

parents c019a850 ec5ba2ac
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View file @ 08f8b586
......@@ -735,11 +735,11 @@ def process_results(Map conf=[:]){
//launch develop branch daily at 23:00 UT in FULL_QA mode and at 19:00 UT with latest staging compiler version
CRON_SETTINGS = BRANCH_NAME == "develop" ? '''0 23 * * * % RUN_FULL_QA=true;ROCMVERSION=6.2;RUN_CK_TILE_FMHA_TESTS=true;RUN_CK_TILE_GEMM_TESTS=true
0 21 * * * % ROCMVERSION=6.2;hipTensor_test=true
0 21 * * * % ROCMVERSION=6.2;hipTensor_test=true;RUN_CODEGEN_TESTS=true
0 19 * * * % BUILD_DOCKER=true;DL_KERNELS=true;COMPILER_VERSION=amd-staging;BUILD_COMPILER=/llvm-project/build/bin/clang++;BUILD_GFX12=true;USE_SCCACHE=false;NINJA_BUILD_TRACE=true
0 17 * * * % BUILD_DOCKER=true;DL_KERNELS=true;COMPILER_VERSION=amd-mainline-open;BUILD_COMPILER=/llvm-project/build/bin/clang++;BUILD_GFX12=true;USE_SCCACHE=false;NINJA_BUILD_TRACE=true
0 15 * * * % BUILD_INSTANCES_ONLY=true;RUN_CODEGEN_TESTS=false;RUN_PERFORMANCE_TESTS=false;USE_SCCACHE=false
0 13 * * * % BUILD_LEGACY_OS=true ''' : ""
0 15 * * * % BUILD_INSTANCES_ONLY=true;RUN_PERFORMANCE_TESTS=false;USE_SCCACHE=false
0 13 * * * % BUILD_LEGACY_OS=true''' : ""
pipeline {
agent none
......@@ -806,6 +806,10 @@ pipeline {
name: "RUN_GROUPED_CONV_LARGE_CASES_TESTS",
defaultValue: false,
description: "Run the grouped conv large cases tests (default: OFF)")
booleanParam(
name: "RUN_CODEGEN_TESTS",
defaultValue: false,
description: "Run codegen tests (default: OFF)")
booleanParam(
name: "RUN_CK_TILE_FMHA_TESTS",
defaultValue: false,
......@@ -934,6 +938,29 @@ pipeline {
}
}
}
stage("Run Codegen Tests")
{
parallel
{
stage("Run Codegen Tests on gfx90a")
{
when {
beforeAgent true
expression { params.RUN_CODEGEN_TESTS.toBoolean() }
}
agent{ label rocmnode("gfx90a")}
environment{
setup_args = "NO_CK_BUILD"
execute_args = """ CXX=/opt/rocm/llvm/bin/clang++ cmake ../codegen && \
make -j64 check"""
}
steps{
buildHipClangJobAndReboot(setup_args:setup_args, no_reboot:true, build_type: 'Release', execute_cmd: execute_args)
cleanWs()
}
}
}
}
stage("Run CK_TILE_FMHA Tests")
{
parallel
......
codegen/CMakeLists.txt
View file @ 08f8b586
cmake_minimum_required(VERSION 3.16)
project(composable_kernel_host)
set(CMAKE_EXPORT_COMPILE_COMMANDS ON)
set(CMAKE_LIBRARY_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR}/lib)
......@@ -5,30 +8,24 @@ set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR}/lib)
set(CMAKE_RUNTIME_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR}/bin)
set(CK_ROOT ${CMAKE_CURRENT_SOURCE_DIR}/..)
add_compile_options(-std=c++17)
find_package(hip)
add_custom_target(codegen)
find_package(ROCM)
include(ROCMInstallTargets)
include(ROCMTest)
# add include directories
include_directories(BEFORE
${PROJECT_BINARY_DIR}/include
${PROJECT_SOURCE_DIR}/include
${PROJECT_SOURCE_DIR}/library/include
${HIP_INCLUDE_DIRS}
)
rocm_setup_version(VERSION 1.0)
list(APPEND CMAKE_MODULE_PATH ${CK_ROOT}/cmake)
include(Embed)
file(GLOB_RECURSE KERNEL_FILES CONFIGURE_DEPENDS
${CK_ROOT}/include/ck/*.hpp)
#printouts fot debug purposes
#message(STATUS "KERNEL_FILES: ${KERNEL_FILES}")
#message(STATUS "RELATIVE: ${CK_ROOT}/include")
# printouts fot debug purposes
# message(STATUS "KERNEL_FILES: ${KERNEL_FILES}")
# message(STATUS "RELATIVE: ${CK_ROOT}/include")
add_embed_library(ck_headers ${KERNEL_FILES} RELATIVE ${CK_ROOT}/include)
file(GLOB SOURCES CONFIGURE_DEPENDS src/*.cpp)
add_compile_options(-std=c++17)
##message(STATUS "SOURCE_FILES: ${SOURCES}")
file(GLOB SOURCES CONFIGURE_DEPENDS src/*.cpp)
# TODO: Use object library
add_library(ck_host STATIC ${SOURCES})
target_link_libraries(ck_host PRIVATE ck_headers)
......@@ -37,24 +34,25 @@ set_target_properties(ck_host PROPERTIES
LINKER_LANGUAGE CXX
POSITION_INDEPENDENT_CODE ON)
target_include_directories(ck_host PUBLIC
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/include>
$<INSTALL_INTERFACE:include>
)
# target_include_directories(ck_host PUBLIC
# $<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/include>
# )
add_executable(ck-template-driver driver/main.cpp)
target_link_libraries(ck-template-driver ck_host)
rocm_install(
rocm_install_targets(
TARGETS ck_host ck_headers
EXPORT ck_hostTargets
EXPORT ck_host_targets
INCLUDE include
PRIVATE
)
rocm_install(EXPORT ck_hostTargets
FILE composable_kernelck_hostTargets.cmake
rocm_export_targets(
EXPORT ck_host_targets
NAMESPACE composable_kernel::
DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/composable_kernel)
rocm_install(DIRECTORY include/ck DESTINATION ${CMAKE_INSTALL_INCLUDEDIR})
)
if(BUILD_TESTING)
add_subdirectory(test)
endif()
codegen/test/CMakeLists.txt
View file @ 08f8b586
list(APPEND CMAKE_PREFIX_PATH /opt/rocm)
add_subdirectory(rtc)
file(GLOB TEST_SRCS CONFIGURE_DEPENDS *.cpp)
# do not build the tests when we build the library for various targets
if(NOT GPU_ARCHS)
foreach(TEST_SRC ${TEST_SRCS})
set_source_files_properties(${TEST_SRC} PROPERTIES LANGUAGE HIP)
# TODO: These tests need to be refactored to remove dependency on main ck
# headers and device compilation.
set(TESTS_REQUIRE_DEVICE_COMPILE
grouped_conv_fwd_multiple_d_v1
grouped_conv_fwd_multiple_d_v2
grouped_conv_fwd_multiple_d_v3
grouped_conv_fwd_multiple_d_v4
)
find_package(hip)
foreach(TEST_SRC ${TEST_SRCS})
get_filename_component(BASE_NAME ${TEST_SRC} NAME_WE)
add_executable(codegen_test_${BASE_NAME} ${TEST_SRC})
if(CK_USE_ALTERNATIVE_PYTHON)
target_link_options(codegen_test_${BASE_NAME} PRIVATE -lstdc++fs)
endif()
add_dependencies(codegen codegen_test_${BASE_NAME})
add_dependencies(tests codegen_test_${BASE_NAME})
add_dependencies(check codegen_test_${BASE_NAME})
add_test(NAME codegen_test_${BASE_NAME} COMMAND codegen_test_${BASE_NAME})
message("adding test codegen_test_${BASE_NAME}")
rocm_add_test_executable(codegen_test_${BASE_NAME} ${TEST_SRC})
target_link_libraries(codegen_test_${BASE_NAME} ck_rtc ck_host)
target_include_directories(codegen_test_${BASE_NAME} PUBLIC ${CK_ROOT}/codegen/test/include)
target_include_directories(codegen_test_${BASE_NAME} PUBLIC include)
if(BASE_NAME IN_LIST TESTS_REQUIRE_DEVICE_COMPILE)
target_link_libraries(codegen_test_${BASE_NAME} hip::device)
target_include_directories(codegen_test_${BASE_NAME} PUBLIC ${CK_ROOT}/include)
target_include_directories(codegen_test_${BASE_NAME} PUBLIC ${CK_ROOT}/library/include)
endforeach()
endif()
endif()
endforeach()
codegen/test/common.hpp codegen/test/include/common.hpp
View file @ 08f8b586
#pragma once
#include "ck/host/headers.hpp"
#include "ck/host/stringutils.hpp"
#include <rtc/compile_kernel.hpp>
#include <rtc/hip.hpp>
#include <test.hpp>
#include <algorithm>
#include <cmath>
#include <fstream>
#include <iterator>
#include <numeric>
#include <random>
#include <unordered_set>
// NOLINTNEXTLINE
const char* const ck_content_wrapper = R"__ck__(
${content}
)__ck__";
template <class P>
inline std::string content_wrapper(P p)
{
return ck::host::InterpolateString(ck_content_wrapper,
{{"content", std::string{p.data(), p.size()}}});
}
inline std::vector<rtc::src_file> create_headers_for_test()
{
auto ck_headers = ck::host::GetHeaders();
std::vector<rtc::src_file> result;
std::transform(ck_headers.begin(), ck_headers.end(), std::back_inserter(result), [](auto& p) {
return rtc::src_file{p.first, content_wrapper(p.second)};
std::string content;
content.reserve(p.second.size() + 1);
content.push_back(' '); // We need a whitespace before the content for hipRTC to work
content.append(p.second.data(), p.second.size());
return rtc::src_file{p.first, std::move(content)};
});
return result;
}
......
codegen/test/rtc/CMakeLists.txt
View file @ 08f8b586
find_package(hip)
file(GLOB RTC_SOURCES CONFIGURE_DEPENDS src/*.cpp)
add_library(ck_rtc ${RTC_SOURCES})
target_include_directories(ck_rtc PUBLIC include)
target_link_libraries(ck_rtc PUBLIC hip::host)
target_link_libraries(ck_rtc PUBLIC -lstdc++fs)
option(USE_HIPRTC_FOR_CODEGEN_TESTS "Whether to enable hipRTC for codegen tests." ON)
if(USE_HIPRTC_FOR_CODEGEN_TESTS)
......
codegen/test/rtc/include/rtc/compile_kernel.hpp
View file @ 08f8b586
#ifndef GUARD_HOST_TEST_RTC_INCLUDE_RTC_COMPILE_KERNEL
#define GUARD_HOST_TEST_RTC_INCLUDE_RTC_COMPILE_KERNEL
#include <ck/filesystem.hpp>
#include <rtc/kernel.hpp>
#include <functional>
#include <rtc/filesystem.hpp>
#include <string>
namespace rtc {
......@@ -11,7 +10,7 @@ namespace rtc {
struct src_file
{
src_file(std::filesystem::path p, std::string c) : path{std::move(p)}, content{std::move(c)} {}
CK::fs::path path;
fs::path path;
std::string content;
};
......
codegen/test/rtc/include/rtc/filesystem.hpp 0 → 100644
View file @ 08f8b586
// SPDX-License-Identifier: MIT
// Copyright (c) 2018-2024, Advanced Micro Devices, Inc. All rights reserved.
#ifndef GUARD_TEST_HOST_RTC_FILESYSTEM_HPP
#define GUARD_TEST_HOST_RTC_FILESYSTEM_HPP
#include <string>
#include <string_view>
// clang-format off
#if defined(CPPCHECK)
#define RTC_HAS_FILESYSTEM 1
#define RTC_HAS_FILESYSTEM_TS 1
#elif defined(_WIN32)
#if _MSC_VER >= 1920
#define RTC_HAS_FILESYSTEM 1
#define RTC_HAS_FILESYSTEM_TS 0
#elif _MSC_VER >= 1900
#define RTC_HAS_FILESYSTEM 0
#define RTC_HAS_FILESYSTEM_TS 1
#else
#define RTC_HAS_FILESYSTEM 0
#define RTC_HAS_FILESYSTEM_TS 0
#endif
#elif defined(__has_include)
#if __has_include(<filesystem>) && __cplusplus >= 201703L
#define RTC_HAS_FILESYSTEM 1
#else
#define RTC_HAS_FILESYSTEM 0
#endif
#if __has_include(<experimental/filesystem>) && __cplusplus >= 201103L
#define RTC_HAS_FILESYSTEM_TS 1
#else
#define RTC_HAS_FILESYSTEM_TS 0
#endif
#else
#define RTC_HAS_FILESYSTEM 0
#define RTC_HAS_FILESYSTEM_TS 0
#endif
// clang-format on
#if RTC_HAS_FILESYSTEM
#include <filesystem>
#elif RTC_HAS_FILESYSTEM_TS
#include <experimental/filesystem>
#else
#error "No filesystem include available"
#endif
namespace rtc {
#if RTC_HAS_FILESYSTEM
namespace fs = ::std::filesystem;
#elif RTC_HAS_FILESYSTEM_TS
namespace fs = ::std::experimental::filesystem;
#endif
} // namespace rtc
#endif // GUARD_RTC_FILESYSTEM_HPP_
codegen/test/rtc/include/rtc/tmp_dir.hpp
View file @ 08f8b586
......@@ -2,13 +2,13 @@
#define GUARD_HOST_TEST_RTC_INCLUDE_RTC_TMP_DIR
#include <string>
#include <ck/filesystem.hpp>
#include <rtc/filesystem.hpp>
namespace rtc {
struct tmp_dir
{
CK::fs::path path;
fs::path path;
tmp_dir(const std::string& prefix = "");
void execute(const std::string& cmd) const;
......
codegen/test/rtc/src/compile_kernel.cpp
View file @ 08f8b586
#include <rtc/compile_kernel.hpp>
#include <rtc/hip.hpp>
#include <rtc/compile_kernel.hpp>
#ifdef HIPRTC_FOR_CODEGEN_TESTS
#include <hip/hiprtc.h>
#include <rtc/manage_ptr.hpp>
#endif
#include <rtc/tmp_dir.hpp>
#include <algorithm>
#include <cassert>
#include <deque>
#include <fstream>
......@@ -96,9 +97,9 @@ kernel clang_compile_kernel(const std::vector<src_file>& srcs, compile_options o
for(const auto& src : srcs)
{
CK::fs::path full_path = td.path / src.path;
CK::fs::path parent_path = full_path.parent_path();
CK::fs::create_directories(parent_path);
fs::path full_path = td.path / src.path;
fs::path parent_path = full_path.parent_path();
fs::create_directories(parent_path);
write_string(full_path.string(), src.content);
if(src.path.extension().string() == ".cpp")
{
......@@ -112,7 +113,7 @@ kernel clang_compile_kernel(const std::vector<src_file>& srcs, compile_options o
td.execute(compiler() + options.flags);
auto out_path = td.path / out;
if(not CK::fs::exists(out_path))
if(not fs::exists(out_path))
throw std::runtime_error("Output file missing: " + out);
auto obj = read_buffer(out_path.string());
......@@ -204,7 +205,7 @@ struct hiprtc_program
}
else
{
headers.push_back(std::string(src.content.begin(), src.content.end()));
headers.push_back(std::move(src.content));
include_names.push_back(std::move(src.path));
}
}
......
codegen/test/rtc/src/tmp_dir.cpp
View file @ 08f8b586
......@@ -31,10 +31,10 @@ std::string unique_string(const std::string& prefix)
}
tmp_dir::tmp_dir(const std::string& prefix)
: path(CK::fs::temp_directory_path() /
: path(fs::temp_directory_path() /
unique_string(prefix.empty() ? "ck-rtc" : "ck-rtc-" + prefix))
{
CK::fs::create_directories(this->path);
fs::create_directories(this->path);
}
void tmp_dir::execute(const std::string& cmd) const
......@@ -43,6 +43,6 @@ void tmp_dir::execute(const std::string& cmd) const
std::system(s.c_str());
}
tmp_dir::~tmp_dir() { CK::fs::remove_all(this->path); }
tmp_dir::~tmp_dir() { fs::remove_all(this->path); }
} // namespace rtc
example/ck_tile/03_gemm/gemm_basic.cpp
View file @ 08f8b586
// SPDX-License-Identifier: MIT
// Copyright (c) 2024, Advanced Micro Devices, Inc. All rights reserved.
......@@ -282,7 +281,11 @@ int main(int argc, char* argv[])
using CodegenPipelineProblem = ck_tile::
GemmPipelineProblem<ADataType, BDataType, AccDataType, CodegenGemmShape, CodegenGemmTraits>;
using CodegenGemmPipeline = ck_tile::GemmPipelineAGmemBGmemCRegV1<CodegenPipelineProblem>;
using CodegenGemmPolicy = ck_tile::
UniversalGemmPipelineAgBgCrPolicy<matrix_a_layout, matrix_b_layout, matrix_c_layout>;
using CodegenGemmPipeline =
ck_tile::GemmPipelineAGmemBGmemCRegV1<CodegenPipelineProblem, CodegenGemmPolicy>;
invoke_gemm<ck_tile::half_t,
matrix_a_layout,
......
include/ck/tensor_operation/gpu/device/impl/device_batched_gemm_softmax_gemm_xdl_cshuffle.hpp
View file @ 08f8b586
......@@ -615,96 +615,6 @@ struct DeviceBatchedGemmSoftmaxGemm_Xdl_CShuffle
return true;
}
static constexpr bool
IsSupported(index_t MRaw_, index_t NRaw_, index_t KRaw_, index_t Gemm1NRaw_)
{
// check vector load/store
using Row = ck::tensor_layout::gemm::RowMajor;
using Col = ck::tensor_layout::gemm::ColumnMajor;
// check vector load of A
if constexpr(is_same_v<ALayout, Row>)
{
if(KRaw_ % ABlockTransferSrcScalarPerVector != 0)
{
return false;
}
}
else if constexpr(is_same_v<ALayout, Col>)
{
if(MRaw_ % ABlockTransferSrcScalarPerVector != 0)
{
return false;
}
}
else
{
return false;
}
// check vector load of B
if constexpr(is_same_v<BLayout, Row>)
{
if(NRaw_ % BBlockTransferSrcScalarPerVector != 0)
{
return false;
}
}
else if constexpr(is_same_v<BLayout, Col>)
{
if(KRaw_ % BBlockTransferSrcScalarPerVector != 0)
{
return false;
}
}
else
{
return false;
}
// check vector load of B1
if constexpr(is_same_v<B1Layout, Row>)
{
if(Gemm1NRaw_ % B1BlockTransferSrcScalarPerVector != 0)
{
return false;
}
}
else if constexpr(is_same_v<B1Layout, Col>)
{
if(NRaw_ % B1BlockTransferSrcScalarPerVector != 0)
{
return false;
}
}
else
{
return false;
}
// check vector load of C
if constexpr(is_same_v<CLayout, Row>)
{
if(Gemm1NRaw_ % CShuffleBlockTransferScalarPerVector_NPerBlock != 0)
{
return false;
}
}
else if constexpr(is_same_v<CLayout, Col>)
{
if(MRaw_ % CShuffleBlockTransferScalarPerVector_NPerBlock != 0)
{
return false;
}
}
else
{
return false;
}
return true;
}
#ifndef __HIPCC_RTC__
static bool IsSupportedArgument(const Argument& arg)
{
......@@ -861,268 +771,6 @@ struct DeviceBatchedGemmSoftmaxGemm_Xdl_CShuffle
return str.str();
}
#endif
template <class ADesc, class BDesc, class B1Desc, class CDesc>
struct Descriptor
{
template <class AGridDescriptor>
static constexpr auto MakeAGridDescriptor_AK0_M_AK1(const AGridDescriptor& a_grid_desc)
{
const auto a_grid_desc_m_k = DeviceOp::matrix_padder.PadADescriptor_M_K(a_grid_desc);
const auto M = a_grid_desc_m_k.GetLength(I0);
const auto K = a_grid_desc_m_k.GetLength(I1);
const auto AK0 = K / AK1;
return transform_tensor_descriptor(
a_grid_desc_m_k,
make_tuple(make_unmerge_transform(make_tuple(AK0, AK1)),
make_pass_through_transform(M)),
make_tuple(Sequence<1>{}, Sequence<0>{}),
make_tuple(Sequence<0, 2>{}, Sequence<1>{}));
}
template <class BGridDescriptor>
static constexpr auto MakeBGridDescriptor_BK0_N_BK1(const BGridDescriptor& b_grid_desc)
{
const auto b_grid_desc_n_k = DeviceOp::matrix_padder.PadBDescriptor_N_K(b_grid_desc);
const auto N = b_grid_desc_n_k.GetLength(I0);
const auto K = b_grid_desc_n_k.GetLength(I1);
const auto BK0 = K / BK1;
return transform_tensor_descriptor(
b_grid_desc_n_k,
make_tuple(make_unmerge_transform(make_tuple(BK0, BK1)),
make_pass_through_transform(N)),
make_tuple(Sequence<1>{}, Sequence<0>{}),
make_tuple(Sequence<0, 2>{}, Sequence<1>{}));
}
template <class B1GridDescriptor>
static constexpr auto MakeB1GridDescriptor_BK0_N_BK1(const B1GridDescriptor& b1_grid_desc)
{
const auto b1_grid_desc_n_k = DeviceOp::matrix_padder.PadB1Descriptor_N_K(b1_grid_desc);
const auto N = b1_grid_desc_n_k.GetLength(I0);
const auto K = b1_grid_desc_n_k.GetLength(I1);
const auto B1K0 = K / B1K1;
return transform_tensor_descriptor(
b1_grid_desc_n_k,
make_tuple(make_unmerge_transform(make_tuple(B1K0, B1K1)),
make_pass_through_transform(N)),
make_tuple(Sequence<1>{}, Sequence<0>{}),
make_tuple(Sequence<0, 2>{}, Sequence<1>{}));
}
template <class CGridDescriptor>
static constexpr auto MakeCGridDescriptor_M_N(const CGridDescriptor& c_grid_desc)
{
return DeviceOp::matrix_padder.PadCDescriptor_M_N(c_grid_desc);
}
using AGridDesc_AK0_M_AK1 =
remove_cvref_t<decltype(MakeAGridDescriptor_AK0_M_AK1(ADesc{}))>;
using BGridDesc_BK0_N_BK1 =
remove_cvref_t<decltype(MakeBGridDescriptor_BK0_N_BK1(BDesc{}))>;
using B1GridDesc_BK0_N_BK1 =
remove_cvref_t<decltype(MakeB1GridDescriptor_BK0_N_BK1(B1Desc{}))>;
using CGridDesc_M_N = remove_cvref_t<decltype(MakeCGridDescriptor_M_N(CDesc{}))>;
// GridwiseGemm
using GridwiseGemm = GridwiseBatchedGemmSoftmaxGemm_Xdl_CShuffle<
ADataType, // TODO: distinguish A/B datatype
GemmAccDataType,
CShuffleDataType,
CDataType,
AElementwiseOperation,
BElementwiseOperation,
AccElementwiseOperation,
B1ElementwiseOperation,
CElementwiseOperation,
InMemoryDataOperationEnum::Set,
AGridDesc_AK0_M_AK1,
BGridDesc_BK0_N_BK1,
B1GridDesc_BK0_N_BK1,
CGridDesc_M_N,
NumGemmKPrefetchStage,
BlockSize,
MPerBlock,
NPerBlock,
KPerBlock,
Gemm1NPerBlock,
Gemm1KPerBlock,
AK1,
BK1,
B1K1,
MPerXDL,
NPerXDL,
MXdlPerWave,
NXdlPerWave,
Gemm1NXdlPerWave,
ABlockTransferThreadClusterLengths_AK0_M_AK1,
ABlockTransferThreadClusterArrangeOrder,
ABlockTransferSrcAccessOrder,
ABlockTransferSrcVectorDim,
ABlockTransferSrcScalarPerVector,
ABlockTransferDstScalarPerVector_AK1,
true,
ABlockLdsExtraM,
BBlockTransferThreadClusterLengths_BK0_N_BK1,
BBlockTransferThreadClusterArrangeOrder,
BBlockTransferSrcAccessOrder,
BBlockTransferSrcVectorDim,
BBlockTransferSrcScalarPerVector,
BBlockTransferDstScalarPerVector_BK1,
true,
BBlockLdsExtraN,
B1BlockTransferThreadClusterLengths_BK0_N_BK1,
B1BlockTransferThreadClusterArrangeOrder,
B1BlockTransferSrcAccessOrder,
B1BlockTransferSrcVectorDim,
B1BlockTransferSrcScalarPerVector,
B1BlockTransferDstScalarPerVector_BK1,
false,
B1BlockLdsExtraN,
CShuffleMXdlPerWavePerShuffle,
CShuffleNXdlPerWavePerShuffle,
CShuffleBlockTransferClusterLengths_MBlock_MPerBlock_NBlock_NPerBlock,
CShuffleBlockTransferScalarPerVector_NPerBlock,
LoopSched,
matrix_padder.PadN,
MaskOutUpperTriangle>;
AGridDesc_AK0_M_AK1 a_grid_desc_ak0_m_ak1;
BGridDesc_BK0_N_BK1 b_grid_desc_bk0_n_bk1;
B1GridDesc_BK0_N_BK1 b1_grid_desc_bk0_n_bk1;
CGridDesc_M_N c_grid_desc_m_n;
C0MatrixMask c0_matrix_mask;
typename GridwiseGemm::DefaultBlock2CTileMap block_2_ctile_map;
typename GridwiseGemm::CGridDescriptor_MBlock_MPerBlock_NBlock_NPerBlock
c_grid_descriptor_mblock_mperblock_nblock_nperblock;
// element-wise op
AElementwiseOperation a_element_op;
BElementwiseOperation b_element_op;
B1ElementwiseOperation b1_element_op;
CElementwiseOperation c_element_op;
bool has_main_k_block_loop = true;
bool is_valid = false;
constexpr Descriptor(ADesc a,
BDesc b,
B1Desc b1,
CDesc c,
AElementwiseOperation a_element_op_,
BElementwiseOperation b_element_op_,
B1ElementwiseOperation b1_element_op_,
CElementwiseOperation c_element_op_)
: a_grid_desc_ak0_m_ak1{MakeAGridDescriptor_AK0_M_AK1(a)},
b_grid_desc_bk0_n_bk1{MakeBGridDescriptor_BK0_N_BK1(b)},
b1_grid_desc_bk0_n_bk1{MakeB1GridDescriptor_BK0_N_BK1(b1)},
c_grid_desc_m_n{MakeCGridDescriptor_M_N(c)},
block_2_ctile_map{GridwiseGemm::MakeDefaultBlock2CTileMap(c_grid_desc_m_n)},
c_grid_descriptor_mblock_mperblock_nblock_nperblock{
GridwiseGemm::MakeCGridDescriptor_MBlock_MPerBlock_NBlock_NPerBlock(
c_grid_desc_m_n)},
has_main_k_block_loop{GridwiseGemm::CalculateHasMainKBlockLoop(
a_grid_desc_ak0_m_ak1.GetLength(I0) * a_grid_desc_ak0_m_ak1.GetLength(I2))},
c0_matrix_mask{c.GetLength(I1)},
a_element_op{a_element_op_},
b_element_op{b_element_op_},
b1_element_op{b1_element_op_},
c_element_op{c_element_op_},
is_valid{GridwiseGemm::CheckValidity(a_grid_desc_ak0_m_ak1,
b_grid_desc_bk0_n_bk1,
b1_grid_desc_bk0_n_bk1,
c_grid_desc_m_n,
block_2_ctile_map) and
IsSupported(a_grid_desc_ak0_m_ak1.GetLength(I1),
b_grid_desc_bk0_n_bk1.GetLength(I1),
a_grid_desc_ak0_m_ak1.GetLength(I0) *
a_grid_desc_ak0_m_ak1.GetLength(I2),
b1_grid_desc_bk0_n_bk1.GetLength(I1))}
{
}
constexpr bool IsValid() const { return is_valid; }
};
template <class ADesc, class BDesc, class B1Desc, class CDesc>
static constexpr auto
make_descriptor(ADesc a,
BDesc b,
B1Desc b1,
CDesc c,
AElementwiseOperation a_element_op = AElementwiseOperation{},
BElementwiseOperation b_element_op = BElementwiseOperation{},
B1ElementwiseOperation b1_element_op = B1ElementwiseOperation{},
CElementwiseOperation c_element_op = CElementwiseOperation{})
{
return Descriptor<ADesc, BDesc, B1Desc, CDesc>(
a, b, b1, c, a_element_op, b_element_op, b1_element_op, c_element_op);
}
template <class Desc>
__device__ static void Run(const Desc& desc,
const float scale,
const ADataType* __restrict__ p_a_grid,
const ADataType* __restrict__ p_b_grid,
const ADataType* __restrict__ p_b1_grid,
CDataType* __restrict__ p_c_grid)
{
#ifndef __HIPCC_RTC__
assert(desc.is_valid);
#endif
__shared__ char p_shared_block[Desc::GridwiseGemm::GetSharedMemoryNumberOfByte()];
AccElementwiseOperation acc_element_op{scale};
if(desc.has_main_k_block_loop)
{
Desc::GridwiseGemm::template Run<true>(
p_a_grid,
p_b_grid,
p_b1_grid,
p_c_grid,
p_shared_block,
desc.a_element_op,
desc.b_element_op,
acc_element_op,
desc.b1_element_op,
desc.c_element_op,
desc.a_grid_desc_ak0_m_ak1,
desc.b_grid_desc_bk0_n_bk1,
desc.b1_grid_desc_bk0_n_bk1,
desc.c_grid_descriptor_mblock_mperblock_nblock_nperblock,
desc.block_2_ctile_map,
desc.c0_matrix_mask);
}
else
{
Desc::GridwiseGemm::template Run<false>(
p_a_grid,
p_b_grid,
p_b1_grid,
p_c_grid,
p_shared_block,
desc.a_element_op,
desc.b_element_op,
acc_element_op,
desc.b1_element_op,
desc.c_element_op,
desc.a_grid_desc_ak0_m_ak1,
desc.b_grid_desc_bk0_n_bk1,
desc.b1_grid_desc_bk0_n_bk1,
desc.c_grid_descriptor_mblock_mperblock_nblock_nperblock,
desc.block_2_ctile_map,
desc.c0_matrix_mask);
}
}
};
} // namespace device
......
include/ck/utility/data_type.hpp
View file @ 08f8b586
......@@ -3,6 +3,7 @@
#pragma once
#include "ck/utility/enable_if.hpp"
#include "ck/utility/statically_indexed_array.hpp"
#ifdef __HIPCC_RTC__
......@@ -204,7 +205,7 @@ struct scalar_type<bool>
};
template <typename T>
struct vector_type<T, 1, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 1, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
using type = d1_t;
......@@ -240,7 +241,7 @@ struct vector_type<T, 1, typename std::enable_if_t<is_native_type<T>()>>
__device__ int static err = 0;
template <typename T>
struct vector_type<T, 2, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 2, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -300,7 +301,7 @@ struct vector_type<T, 2, typename std::enable_if_t<is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 4, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 4, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -370,7 +371,7 @@ struct vector_type<T, 4, typename std::enable_if_t<is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 8, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 8, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -452,7 +453,7 @@ struct vector_type<T, 8, typename std::enable_if_t<is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 16, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 16, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -546,7 +547,7 @@ struct vector_type<T, 16, typename std::enable_if_t<is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 32, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 32, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -650,7 +651,7 @@ struct vector_type<T, 32, typename std::enable_if_t<is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 64, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 64, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -766,7 +767,7 @@ struct vector_type<T, 64, typename std::enable_if_t<is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 128, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 128, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -892,7 +893,7 @@ struct vector_type<T, 128, typename std::enable_if_t<is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 256, typename std::enable_if_t<is_native_type<T>()>>
struct vector_type<T, 256, typename ck::enable_if_t<is_native_type<T>()>>
{
using d1_t = T;
typedef T d2_t __attribute__((ext_vector_type(2)));
......@@ -1042,7 +1043,7 @@ struct non_native_vector_base
// non-native vector_type implementation
template <typename T>
struct vector_type<T, 1, typename std::enable_if_t<!is_native_type<T>()>>
struct vector_type<T, 1, typename ck::enable_if_t<!is_native_type<T>()>>
{
using d1_t = T;
using type = d1_t;
......@@ -1077,7 +1078,7 @@ struct vector_type<T, 1, typename std::enable_if_t<!is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 2, typename std::enable_if_t<!is_native_type<T>()>>
struct vector_type<T, 2, typename ck::enable_if_t<!is_native_type<T>()>>
{
using d1_t = T;
using d2_t = non_native_vector_base<T, 2>;
......@@ -1137,7 +1138,7 @@ struct vector_type<T, 2, typename std::enable_if_t<!is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 4, typename std::enable_if_t<!is_native_type<T>()>>
struct vector_type<T, 4, typename ck::enable_if_t<!is_native_type<T>()>>
{
using d1_t = T;
using d2_t = non_native_vector_base<T, 2>;
......@@ -1207,7 +1208,7 @@ struct vector_type<T, 4, typename std::enable_if_t<!is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 8, typename std::enable_if_t<!is_native_type<T>()>>
struct vector_type<T, 8, typename ck::enable_if_t<!is_native_type<T>()>>
{
using d1_t = T;
using d2_t = non_native_vector_base<T, 2>;
......@@ -1289,7 +1290,7 @@ struct vector_type<T, 8, typename std::enable_if_t<!is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 16, typename std::enable_if_t<!is_native_type<T>()>>
struct vector_type<T, 16, typename ck::enable_if_t<!is_native_type<T>()>>
{
using d1_t = T;
using d2_t = non_native_vector_base<T, 2>;
......@@ -1383,7 +1384,7 @@ struct vector_type<T, 16, typename std::enable_if_t<!is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 32, typename std::enable_if_t<!is_native_type<T>()>>
struct vector_type<T, 32, typename ck::enable_if_t<!is_native_type<T>()>>
{
using d1_t = T;
using d2_t = non_native_vector_base<T, 2>;
......@@ -1487,7 +1488,7 @@ struct vector_type<T, 32, typename std::enable_if_t<!is_native_type<T>()>>
};
template <typename T>
struct vector_type<T, 64, typename std::enable_if_t<!is_native_type<T>()>>
struct vector_type<T, 64, typename ck::enable_if_t<!is_native_type<T>()>>
{
using d1_t = T;
using d2_t = non_native_vector_base<T, 2>;
......
include/ck/utility/magic_division.hpp
View file @ 08f8b586
......@@ -4,6 +4,7 @@
#pragma once
#include "ck/ck.hpp"
#include "data_type.hpp"
#include "integral_constant.hpp"
#include "number.hpp"
#include "type.hpp"
......
include/ck_tile/core/config.hpp
View file @ 08f8b586
......@@ -157,8 +157,11 @@
#endif
#endif
// workaround for ROCm 6.2 and later
#ifndef CK_TILE_WORKAROUND_ROCM_6_2_SCRATCH_MEMORY_ISSUE
#if HIP_VERSION_MAJOR == 6 && HIP_VERSION_MINOR == 2 && HIP_VERSION_PATCH >= 41133
#if(HIP_VERSION_MAJOR == 6 && HIP_VERSION_MINOR == 2 && HIP_VERSION_PATCH >= 41133) || \
(HIP_VERSION_MAJOR == 6 && HIP_VERSION_MINOR == 3 && HIP_VERSION_PATCH >= 42131) || \
(HIP_VERSION_MAJOR == 6 && HIP_VERSION_MINOR > 3)
#define CK_TILE_WORKAROUND_ROCM_6_2_SCRATCH_MEMORY_ISSUE 1
#else
#define CK_TILE_WORKAROUND_ROCM_6_2_SCRATCH_MEMORY_ISSUE 0
......
include/ck_tile/ops/fmha/pipeline/block_fmha_bwd_dq_dk_dv_pipeline_kr_ktr_vr.hpp
View file @ 08f8b586
......@@ -178,13 +178,13 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
k_lds_ptr, Policy::template MakeKLdsWriteBlockDescriptor<Problem>());
auto k_lds_write_window =
make_tile_window(k_lds, make_tuple(number<kN0>{}, number<kK0>{}), {0, 0});
make_tile_window(k_lds, make_tuple(number<kN0>{}, number<kQKHeaddim>{}), {0, 0});
auto k_lds_read_window =
make_tile_window(k_lds_write_window.get_bottom_tensor_view(),
make_tuple(number<kN0>{}, number<kK0>{}),
k_lds_write_window.get_window_origin(),
Policy::template MakeKRegSliceBlockDescriptor<Problem>());
Policy::template MakeKRegBlockDescriptor<Problem>());
auto k_reg_tensor = make_static_distributed_tensor<KDataType>(
Policy::template MakeKRegBlockDescriptor<Problem>());
......@@ -204,15 +204,12 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
v_lds_ptr, Policy::template MakeVLdsWriteBlockDescriptor<Problem>());
auto v_lds_write_window =
make_tile_window(v_lds, make_tuple(number<kN0>{}, number<kK2>{}), {0, 0});
make_tile_window(v_lds, make_tuple(number<kN0>{}, number<kVHeaddim>{}), {0, 0});
auto v_lds_read_window =
make_tile_window(v_lds_write_window.get_bottom_tensor_view(),
make_tuple(number<kN0>{}, number<kK2>{}),
v_lds_write_window.get_window_origin(),
Policy::template MakeVRegSliceBlockDescriptor<Problem>());
auto v_reg_tensor = make_static_distributed_tensor<VDataType>(
Policy::template MakeVRegBlockDescriptor<Problem>());
//------------------------------------------------------------------
......@@ -227,7 +224,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
kt_lds_ptr, Policy::template MakeShuffledKLdsWriteBlockDescriptor<Problem>());
auto shuffled_k_lds_write_window = make_tile_window(
shuffled_k_lds_write, make_tuple(number<kN0>{}, number<kK0>{}), {0, 0});
shuffled_k_lds_write, make_tuple(number<kN0>{}, number<kQKHeaddim>{}), {0, 0});
auto kt_lds_read = make_tensor_view<address_space_enum::lds>(
kt_lds_ptr, Policy::template MakeKTLdsReadBlockDescriptor<Problem>());
......@@ -257,7 +254,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
block_sync_lds();
v_reg_tensor = load_tile(v_lds_read_window);
auto v_reg_tensor = load_tile(v_lds_read_window);
block_sync_lds();
//---------------------------- Loop Load in ----------------------------//
// Q: HBM ->Reg ->LDS
......@@ -276,7 +273,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
q_lds_ptr, Policy::template MakeQLdsBlockDescriptor<Problem>());
auto q_lds_window =
make_tile_window(q_lds, make_tuple(number<kM0>{}, number<kK0>{}), {0, 0});
make_tile_window(q_lds, make_tuple(number<kM0>{}, number<kQKHeaddim>{}), {0, 0});
auto q_lds_read_window =
make_tile_window(q_lds_window.get_bottom_tensor_view(),
......@@ -297,7 +294,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
qt_lds_ptr, Policy::template MakeShuffledQLdsWriteBlockDescriptor<Problem>());
auto shuffled_q_lds_write_window = make_tile_window(
shuffled_q_lds_write, make_tuple(number<kM0>{}, number<kK0>{}), {0, 0});
shuffled_q_lds_write, make_tuple(number<kM0>{}, number<kQKHeaddim>{}), {0, 0});
auto qt_lds_read = make_tensor_view<address_space_enum::lds>(
qt_lds_ptr, Policy::template MakeQTLdsReadBlockDescriptor<Problem>());
......@@ -322,7 +319,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
do_lds_ptr, Policy::template MakeOGradLdsBlockDescriptor<Problem>());
auto do_lds_window =
make_tile_window(do_lds, make_tuple(number<kM0>{}, number<kK2>{}), {0, 0});
make_tile_window(do_lds, make_tuple(number<kM0>{}, number<kVHeaddim>{}), {0, 0});
auto do_lds_read_window =
make_tile_window(do_lds_window.get_bottom_tensor_view(),
......@@ -341,7 +338,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
dot_lds_ptr, Policy::template MakeShuffledOGradLdsWriteBlockDescriptor<Problem>());
auto shuffled_do_lds_write_window = make_tile_window(
shuffled_do_lds_write, make_tuple(number<kM0>{}, number<kK2>{}), {0, 0});
shuffled_do_lds_write, make_tuple(number<kM0>{}, number<kVHeaddim>{}), {0, 0});
auto dot_read_lds = make_tensor_view<address_space_enum::lds>(
dot_lds_ptr, Policy::template MakeOGradTLdsReadBlockDescriptor<Problem>());
......@@ -483,9 +480,9 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVR
index_t i_total_loops = 0;
index_t seqlen_q_step = seqlen_q_start;
static_assert(kQKHeaddim == kK0, "kQKHeaddim should equal to kK0");
static_assert(kQKHeaddim >= kK0, "kQKHeaddim should be equal or greater than kK0");
static_assert(kM0 == kK1, "kM0 should equal to kK1");
static_assert(kVHeaddim == kK2, "kVHeaddim should equal to kK2");
static_assert(kVHeaddim >= kK2, "kVHeaddim should be equal or greater than kK2");
static_assert(kM0 == kK3, "kM0 should equal to kK3");
constexpr index_t k4_loops = kN0 / kK4;
......
include/ck_tile/ops/fmha/pipeline/block_fmha_bwd_dq_dk_dv_pipeline_kr_ktr_vr_iglp.hpp
View file @ 08f8b586
......@@ -178,13 +178,13 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
k_lds_ptr, Policy::template MakeKLdsWriteBlockDescriptor<Problem>());
auto k_lds_write_window =
make_tile_window(k_lds, make_tuple(number<kN0>{}, number<kK0>{}), {0, 0});
make_tile_window(k_lds, make_tuple(number<kN0>{}, number<kQKHeaddim>{}), {0, 0});
auto k_lds_read_window =
make_tile_window(k_lds_write_window.get_bottom_tensor_view(),
make_tuple(number<kN0>{}, number<kK0>{}),
k_lds_write_window.get_window_origin(),
Policy::template MakeKRegSliceBlockDescriptor<Problem>());
Policy::template MakeKRegBlockDescriptor<Problem>());
auto k_reg_tensor = make_static_distributed_tensor<KDataType>(
Policy::template MakeKRegBlockDescriptor<Problem>());
......@@ -204,15 +204,12 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
v_lds_ptr, Policy::template MakeVLdsWriteBlockDescriptor<Problem>());
auto v_lds_write_window =
make_tile_window(v_lds, make_tuple(number<kN0>{}, number<kK2>{}), {0, 0});
make_tile_window(v_lds, make_tuple(number<kN0>{}, number<kVHeaddim>{}), {0, 0});
auto v_lds_read_window =
make_tile_window(v_lds_write_window.get_bottom_tensor_view(),
make_tuple(number<kN0>{}, number<kK2>{}),
v_lds_write_window.get_window_origin(),
Policy::template MakeVRegSliceBlockDescriptor<Problem>());
auto v_reg_tensor = make_static_distributed_tensor<VDataType>(
Policy::template MakeVRegBlockDescriptor<Problem>());
//------------------------------------------------------------------
......@@ -227,7 +224,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
kt_lds_ptr, Policy::template MakeShuffledKLdsWriteBlockDescriptor<Problem>());
auto shuffled_k_lds_write_window = make_tile_window(
shuffled_k_lds_write, make_tuple(number<kN0>{}, number<kK0>{}), {0, 0});
shuffled_k_lds_write, make_tuple(number<kN0>{}, number<kQKHeaddim>{}), {0, 0});
auto kt_lds_read = make_tensor_view<address_space_enum::lds>(
kt_lds_ptr, Policy::template MakeKTLdsReadBlockDescriptor<Problem>());
......@@ -257,7 +254,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
block_sync_lds();
v_reg_tensor = load_tile(v_lds_read_window);
auto v_reg_tensor = load_tile(v_lds_read_window);
//---------------------------- Loop Load in ----------------------------//
// Q: HBM ->Reg ->LDS
auto q_dram_window =
......@@ -275,7 +272,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
q_lds_ptr, Policy::template MakeQLdsBlockDescriptor<Problem>());
auto q_lds_window =
make_tile_window(q_lds, make_tuple(number<kM0>{}, number<kK0>{}), {0, 0});
make_tile_window(q_lds, make_tuple(number<kM0>{}, number<kQKHeaddim>{}), {0, 0});
auto q_lds_read_window =
make_tile_window(q_lds_window.get_bottom_tensor_view(),
......@@ -296,7 +293,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
qt_lds_ptr, Policy::template MakeShuffledQLdsWriteBlockDescriptor<Problem>());
auto shuffled_q_lds_write_window = make_tile_window(
shuffled_q_lds_write, make_tuple(number<kM0>{}, number<kK0>{}), {0, 0});
shuffled_q_lds_write, make_tuple(number<kM0>{}, number<kQKHeaddim>{}), {0, 0});
auto qt_lds_read = make_tensor_view<address_space_enum::lds>(
qt_lds_ptr, Policy::template MakeQTLdsReadBlockDescriptor<Problem>());
......@@ -321,7 +318,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
do_lds_ptr, Policy::template MakeOGradLdsBlockDescriptor<Problem>());
auto do_lds_window =
make_tile_window(do_lds, make_tuple(number<kM0>{}, number<kK2>{}), {0, 0});
make_tile_window(do_lds, make_tuple(number<kM0>{}, number<kVHeaddim>{}), {0, 0});
auto do_lds_read_window =
make_tile_window(do_lds_window.get_bottom_tensor_view(),
......@@ -340,7 +337,7 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
dot_lds_ptr, Policy::template MakeShuffledOGradLdsWriteBlockDescriptor<Problem>());
auto shuffled_do_lds_write_window = make_tile_window(
shuffled_do_lds_write, make_tuple(number<kM0>{}, number<kK2>{}), {0, 0});
shuffled_do_lds_write, make_tuple(number<kM0>{}, number<kVHeaddim>{}), {0, 0});
auto dot_read_lds = make_tensor_view<address_space_enum::lds>(
dot_lds_ptr, Policy::template MakeOGradTLdsReadBlockDescriptor<Problem>());
......@@ -482,9 +479,9 @@ struct BlockFmhaBwdDQDKDVPipelineKRKTRVRIGLP
index_t i_total_loops = 0;
index_t seqlen_q_step = seqlen_q_start;
static_assert(kQKHeaddim == kK0, "kQKHeaddim should equal to kK0");
static_assert(kQKHeaddim >= kK0, "kQKHeaddim should be equal or greater than kK0");
static_assert(kM0 == kK1, "kM0 should equal to kK1");
static_assert(kVHeaddim == kK2, "kVHeaddim should equal to kK2");
static_assert(kVHeaddim >= kK2, "kVHeaddim should be equal or greater than kK2");
static_assert(kM0 == kK3, "kM0 should equal to kK3");
constexpr index_t k4_loops = kN0 / kK4;
......
include/ck_tile/ops/fmha/pipeline/block_fmha_bwd_pipeline_default_policy.hpp
View file @ 08f8b586
......@@ -196,7 +196,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
using QDataType = remove_cvref_t<typename Problem::QDataType>;
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kMNPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t kMaxVecLoad = 16 / sizeof(QDataType);
constexpr index_t kMinVecLoad = 4 / sizeof(QDataType);
......@@ -215,7 +215,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
using KDataType = remove_cvref_t<typename Problem::KDataType>;
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kMNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t kMaxVecLoad = 16 / sizeof(KDataType);
constexpr index_t kMinVecLoad = 4 / sizeof(KDataType);
......@@ -234,7 +234,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
using VDataType = remove_cvref_t<typename Problem::VDataType>;
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kMNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t kMaxVecLoad = 16 / sizeof(VDataType);
constexpr index_t total_pixels = kMNPerBlock * kKPerBlock / kBlockSize;
......@@ -254,7 +254,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
using OGradDataType = remove_cvref_t<typename Problem::OGradDataType>;
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kMNPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t kMaxVecLoad = 16 / sizeof(OGradDataType);
constexpr index_t kMinVecLoad = 4 / sizeof(OGradDataType);
......@@ -315,7 +315,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
{
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t total_pixels = kNPerBlock * kKPerBlock / kBlockSize;
......@@ -327,7 +327,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
{
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t total_pixels = kNPerBlock * kKPerBlock / kBlockSize;
return total_pixels / GetAlignmentK<Problem>();
......@@ -338,7 +338,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
{
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t total_pixels = kNPerBlock * kKPerBlock / kBlockSize;
......@@ -376,7 +376,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t K1 = GetAlignmentK<Problem>();
constexpr index_t K0 = kKPerBlock / K1;
......@@ -399,7 +399,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t K1 = GetAlignmentV<Problem>();
constexpr index_t K0 = kKPerBlock / K1;
......@@ -422,7 +422,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kMPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t K1 = GetAlignmentQ<Problem>();
constexpr index_t K0 = kKPerBlock / K1;
......@@ -445,7 +445,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kMPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t K1 = GetAlignmentOGrad<Problem>();
constexpr index_t K0 = kKPerBlock / K1;
......@@ -816,44 +816,12 @@ struct BlockFmhaBwdPipelineDefaultPolicy
CK_TILE_HOST_DEVICE static constexpr auto MakeKLdsWriteBlockDescriptor()
{
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t kKPack = GetSmemKPackK<Problem>();
return MakeXLdsBlockDescriptor<kNPerBlock, kKPerBlock, kKPack>();
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeKRegSliceBlockDescriptor()
{
using BlockGemm = remove_cvref_t<decltype(GetQKBlockGemm<Problem>())>;
constexpr auto config = BlockGemm::Policy::template GetWarpGemmMWarpNWarp<Problem>();
using WarpGemm = remove_cvref_t<decltype(config.template at<0>())>;
constexpr index_t MWarp = Problem::BlockFmhaShape::Gemm0BlockWarps::at(number<0>{});
constexpr index_t NWarp = Problem::BlockFmhaShape::Gemm0BlockWarps::at(number<1>{});
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t NIterPerWarp = kNPerBlock / (NWarp * WarpGemm::kN);
constexpr index_t KIterPerWarp = kKPerBlock / WarpGemm::kK;
constexpr auto k_block_outer_dstr_encoding =
tile_distribution_encoding<sequence<MWarp>,
tuple<sequence<NIterPerWarp, NWarp>, sequence<KIterPerWarp>>,
tuple<sequence<0, 1>>,
tuple<sequence<0, 1>>,
sequence<1, 2>,
sequence<0, 0>>{};
constexpr auto k_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
k_block_outer_dstr_encoding, typename WarpGemm::BWarpDstrEncoding{});
constexpr auto k_block_dstr = make_static_tile_distribution(k_block_dstr_encode);
return k_block_dstr;
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeKRegBlockDescriptor()
{
......@@ -865,7 +833,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
constexpr index_t NWarp = Problem::BlockFmhaShape::Gemm0BlockWarps::at(number<1>{});
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t NIterPerWarp = kNPerBlock / (NWarp * WarpGemm::kN);
constexpr index_t KIterPerWarp = kKPerBlock / WarpGemm::kK;
......@@ -890,45 +858,13 @@ struct BlockFmhaBwdPipelineDefaultPolicy
CK_TILE_HOST_DEVICE static constexpr auto MakeVLdsWriteBlockDescriptor()
{
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t kVPack = GetSmemKPackV<Problem>();
return MakeXLdsBlockDescriptor<kNPerBlock, kKPerBlock, kVPack>();
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeVRegSliceBlockDescriptor()
{
using BlockGemm = remove_cvref_t<decltype(GetOGradVBlockGemm<Problem>())>;
constexpr auto config = BlockGemm::Policy::template GetWarpGemmMWarpNWarp<Problem>();
using WarpGemm = remove_cvref_t<decltype(config.template at<0>())>;
constexpr index_t MWarp = Problem::BlockFmhaShape::Gemm2BlockWarps::at(number<0>{});
constexpr index_t NWarp = Problem::BlockFmhaShape::Gemm2BlockWarps::at(number<1>{});
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t NIterPerWarp = kNPerBlock / (NWarp * WarpGemm::kN);
constexpr index_t KIterPerWarp = kKPerBlock / WarpGemm::kK;
constexpr auto v_block_outer_dstr_encoding =
tile_distribution_encoding<sequence<MWarp>,
tuple<sequence<NIterPerWarp, NWarp>, sequence<KIterPerWarp>>,
tuple<sequence<0, 1>>,
tuple<sequence<0, 1>>,
sequence<1, 2>,
sequence<0, 0>>{};
constexpr auto v_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
v_block_outer_dstr_encoding, typename WarpGemm::BWarpDstrEncoding{});
constexpr auto v_block_dstr = make_static_tile_distribution(v_block_dstr_encode);
return v_block_dstr;
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeVRegBlockDescriptor()
{
......@@ -940,7 +876,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
constexpr index_t NWarp = Problem::BlockFmhaShape::Gemm2BlockWarps::at(number<1>{});
constexpr index_t kNPerBlock = Problem::BlockFmhaShape::kN0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t NIterPerWarp = kNPerBlock / (NWarp * WarpGemm::kN);
constexpr index_t KIterPerWarp = kKPerBlock / WarpGemm::kK;
......@@ -966,7 +902,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
{
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t K1 = GetAlignmentK<Problem>();
constexpr index_t K0 = kKPerBlock / K1;
......@@ -1048,7 +984,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
CK_TILE_HOST_DEVICE static constexpr auto MakeQLdsBlockDescriptor()
{
constexpr index_t kMPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t kKPack = GetSmemKPackQ<Problem>();
......@@ -1092,7 +1028,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
{
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kQKHeaddim;
constexpr index_t K1 = GetAlignmentQ<Problem>();
constexpr index_t K0 = kKPerBlock / K1;
......@@ -1255,7 +1191,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
{
// Hold full block data
constexpr index_t kMPerBlock = Problem::BlockFmhaShape::kM0;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t kKPack = GetSmemKPackOGrad<Problem>();
......@@ -1299,7 +1235,7 @@ struct BlockFmhaBwdPipelineDefaultPolicy
{
constexpr index_t kBlockSize = Problem::kBlockSize;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kK2;
constexpr index_t kKPerBlock = Problem::BlockFmhaShape::kVHeaddim;
constexpr index_t K1 = GetAlignmentOGrad<Problem>();
constexpr index_t K0 = kKPerBlock / K1;
......@@ -1859,6 +1795,8 @@ struct BlockFmhaBwdPipelineDefaultPolicy
static constexpr index_t kN0 = Problem::BlockFmhaShape::kN0;
static constexpr index_t kQKHeaddim = Problem::BlockFmhaShape::kQKHeaddim;
static constexpr index_t kVHeaddim = Problem::BlockFmhaShape::kVHeaddim;
static constexpr index_t kK0 = Problem::BlockFmhaShape::kK0;
static constexpr index_t kK2 = Problem::BlockFmhaShape::kK2;
static constexpr index_t kK4 = Problem::BlockFmhaShape::kK4;
static constexpr index_t WarpGemmM =
......@@ -1873,14 +1811,12 @@ struct BlockFmhaBwdPipelineDefaultPolicy
// Compute
static constexpr index_t Gemm0MFMA =
kM0 * kN0 * kQKHeaddim /
(kBlockSize / get_warp_size() * WarpGemmM * WarpGemmN * WarpGemmK);
kM0 * kN0 * kK0 / (kBlockSize / get_warp_size() * WarpGemmM * WarpGemmN * WarpGemmK);
static constexpr index_t Gemm1MFMA =
kM0 * kN0 * kVHeaddim /
(kBlockSize / get_warp_size() * WarpGemmM * WarpGemmN * WarpGemmK);
static constexpr index_t Gemm2MFMA =
kN0 * kVHeaddim * kM0 /
(kBlockSize / get_warp_size() * WarpGemmM * WarpGemmN * WarpGemmK);
static constexpr index_t Gemm2MFMA =
kM0 * kN0 * kK2 / (kBlockSize / get_warp_size() * WarpGemmM * WarpGemmN * WarpGemmK);
static constexpr index_t Gemm3MFMA =
kN0 * kQKHeaddim * kM0 /
(kBlockSize / get_warp_size() * WarpGemmM * WarpGemmN * WarpGemmK);
......@@ -1903,13 +1839,12 @@ struct BlockFmhaBwdPipelineDefaultPolicy
kM0 * kQKHeaddim / get_warp_size() / GetTransposedAlignmentQ<Problem>();
static constexpr index_t SGradT_LDS_READ_P1 =
kM0 * kK4 / (get_warp_size() * Gemm4MWarp) / GetSmemKPackSGrad<Problem>();
static constexpr index_t Q_LDS_READ =
kM0 * kQKHeaddim / kBlockSize / GetAlignmentQ<Problem>();
static constexpr index_t Q_LDS_READ = kM0 * kK0 / kBlockSize / GetAlignmentQ<Problem>();
static constexpr index_t LSE_LDS_READ = WarpGemmM == 16 ? kM0 / (4 * 4) : kM0 / (2 * 4);
static constexpr index_t SGradT_LDS_READ_P2 =
kM0 * (kN0 - kK4) / (get_warp_size() * Gemm4MWarp) / GetSmemKPackSGrad<Problem>();
static constexpr index_t OGrad_LDS_READ =
kM0 * kVHeaddim / kBlockSize / GetAlignmentOGrad<Problem>();
kM0 * kK2 / kBlockSize / GetAlignmentOGrad<Problem>();
static constexpr index_t D_LDS_READ = WarpGemmM == 16 ? kM0 / (4 * 4) : kM0 / (2 * 4);
// LDS Write
......
include/ck_tile/ops/gemm.hpp
View file @ 08f8b586
......@@ -23,6 +23,7 @@
#include "ck_tile/ops/gemm/block/block_gemm_problem.hpp"
#include "ck_tile/ops/gemm/kernel/gemm_kernel.hpp"
#include "ck_tile/ops/gemm/kernel/gemm_tile_partitioner.hpp"
#include "ck_tile/ops/gemm/pipeline/gemm_universal_pipeline_ag_bg_cr_policy.hpp"
#include "ck_tile/ops/gemm/pipeline/gemm_pipeline_agmem_bgmem_creg_v1.hpp"
#include "ck_tile/ops/gemm/pipeline/gemm_pipeline_agmem_bgmem_creg_v1_default_policy.hpp"
#include "ck_tile/ops/gemm/pipeline/gemm_pipeline_agmem_bgmem_creg_v2.hpp"
......
include/ck_tile/ops/gemm/pipeline/gemm_universal_pipeline_ag_bg_cr_policy.hpp 0 → 100644
View file @ 08f8b586
// SPDX-License-Identifier: MIT
// Copyright (c) 2024, Advanced Micro Devices, Inc. All rights reserved.
#pragma once
#include "ck_tile/core.hpp"
#include "ck_tile/ops/gemm/warp/warp_gemm_dispatcher.hpp"
namespace ck_tile {
// UniversalGemm Policy
template <typename LayoutA_, typename LayoutB_, typename LayoutC_>
struct UniversalGemmPipelineAgBgCrPolicy
{
using LayoutA = remove_cvref_t<LayoutA_>;
using LayoutB = remove_cvref_t<LayoutB_>;
using LayoutC = remove_cvref_t<LayoutC_>;
static constexpr auto I0 = number<0>{};
static constexpr auto I1 = number<1>{};
static constexpr auto I2 = number<2>{};
static constexpr bool TransposeC = true;
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeALdsBlockDescriptor()
{
using WarpGemm = WarpGemmMfmaDispatcher<typename Problem::ADataType,
typename Problem::BDataType,
typename Problem::CDataType,
Problem::BlockGemmShape::WarpTile::at(I0),
Problem::BlockGemmShape::WarpTile::at(I1),
Problem::BlockGemmShape::WarpTile::at(I2),
TransposeC>;
using ADataType = remove_cvref_t<typename Problem::ADataType>;
constexpr index_t MPerBlock = Problem::BlockGemmShape::kM;
constexpr index_t KPerBlock = Problem::BlockGemmShape::kK;
constexpr index_t K1 = WarpGemm::kK;
constexpr index_t K0 = KPerBlock / K1;
if constexpr(std::is_same<tensor_layout::gemm::RowMajor, LayoutA>::value)
{
constexpr auto MLdsLayer = 32 * 4 / KPerBlock / sizeof(ADataType) < 1
? 1
: 32 * 4 / KPerBlock / sizeof(ADataType);
constexpr auto a_lds_block_desc = make_naive_tensor_descriptor(
make_tuple(K0 * number<MLdsLayer>{}, number<MPerBlock / MLdsLayer>{}, K1),
make_tuple(K1, number<KPerBlock * MLdsLayer>{}, I1));
constexpr auto a_lds_block_desc_permuted = transform_tensor_descriptor(
a_lds_block_desc,
make_tuple(make_xor_transform(make_tuple(number<MPerBlock / MLdsLayer>{},
number<K0 * MLdsLayer>{})),
make_pass_through_transform(K1)),
make_tuple(sequence<1, 0>{}, sequence<2>{}),
make_tuple(sequence<1, 0>{}, sequence<2>{}));
constexpr auto a_lds_block_desc_ak0_kMLdsLayer_m_ak1 = transform_tensor_descriptor(
a_lds_block_desc_permuted,
make_tuple(make_unmerge_transform(make_tuple(K0, number<MLdsLayer>{})),
make_pass_through_transform(number<MPerBlock / MLdsLayer>{}),
make_pass_through_transform(K1)),
make_tuple(sequence<0>{}, sequence<1>{}, sequence<2>{}),
make_tuple(sequence<0, 2>{}, sequence<1>{}, sequence<3>{}));
constexpr auto a_lds_block_desc_m_k = transform_tensor_descriptor(
a_lds_block_desc_ak0_kMLdsLayer_m_ak1,
make_tuple(make_merge_transform_v3_division_mod(make_tuple(K0, K1)),
make_merge_transform_v3_division_mod(
make_tuple(number<MPerBlock / MLdsLayer>{}, number<MLdsLayer>{}))),
make_tuple(sequence<0, 3>{}, sequence<1, 2>{}),
make_tuple(sequence<1>{}, sequence<0>{}));
return a_lds_block_desc_m_k;
}
else // ColumnMajor A
{
// kfold and mpair dimension is not always required.
// more dimension in merge_transform increase the difficulty of generating immarg offset
// for compiler.
constexpr auto M0 = get_warp_size() * Problem::BlockGemmShape::BlockWarps::at(I0);
constexpr auto M1 = MPerBlock / M0;
constexpr auto KThreadWrite = Problem::kBlockSize / M0;
constexpr auto K0PerThreadWrite = K0 / KThreadWrite;
constexpr auto KThreadRead = 64 / WarpGemm::kM;
constexpr auto K0PerThreadRead = K0 / KThreadRead;
constexpr auto kfold =
(K1 * M0 * sizeof(ADataType) > 128) ? 1 : 128 / (K1 * M0 * sizeof(ADataType));
constexpr auto KThreadReadPerm =
(kfold * K0PerThreadWrite / K0PerThreadRead) > 1
? KThreadRead / (kfold * K0PerThreadWrite / K0PerThreadRead)
: KThreadRead;
// 1<=mpair<=kN0
constexpr auto mpair = (K1 * WarpGemm::kM * sizeof(ADataType) > 128)
? 1
: ((128 / (K1 * WarpGemm::kM * sizeof(ADataType))) > M0
? M0
: 128 / (K1 * WarpGemm::kM * sizeof(ADataType)));
constexpr auto a_lds_block_desc = make_naive_tensor_descriptor_packed(
make_tuple(number<KThreadWrite / kfold / KThreadReadPerm>{},
number<K0PerThreadWrite>{},
number<KThreadReadPerm * M1>{},
number<kfold * M0 / mpair>{},
number<mpair>{},
K1));
constexpr auto a_lds_block_desc_permuted = transform_tensor_descriptor(
a_lds_block_desc,
make_tuple(
make_pass_through_transform(number<KThreadWrite / kfold / KThreadReadPerm>{}),
make_pass_through_transform(number<K0PerThreadWrite>{}),
make_xor_transform(
make_tuple(number<KThreadReadPerm * M1>{}, number<kfold * M0 / mpair>{})),
make_pass_through_transform(number<mpair>{}),
make_pass_through_transform(K1)),
make_tuple(
sequence<0>{}, sequence<1>{}, sequence<2, 3>{}, sequence<4>{}, sequence<5>{}),
make_tuple(
sequence<0>{}, sequence<1>{}, sequence<2, 3>{}, sequence<4>{}, sequence<5>{}));
constexpr auto a_lds_block_desc_unmerged = transform_tensor_descriptor(
a_lds_block_desc_permuted,
make_tuple(
make_pass_through_transform(number<KThreadWrite / kfold / KThreadReadPerm>{}),
make_pass_through_transform(number<K0PerThreadWrite>{}),
make_unmerge_transform(make_tuple(number<KThreadReadPerm>{}, number<M1>{})),
make_unmerge_transform(make_tuple(number<kfold>{}, number<M0 / mpair>{})),
make_pass_through_transform(number<mpair>{}),
make_pass_through_transform(K1)),
make_tuple(sequence<0>{},
sequence<1>{},
sequence<2>{},
sequence<3>{},
sequence<4>{},
sequence<5>{}),
make_tuple(sequence<1>{},
sequence<2>{},
sequence<0, 3>{},
sequence<4, 5>{},
sequence<6>{},
sequence<7>{}));
constexpr auto a_lds_block_desc_m_k = transform_tensor_descriptor(
a_lds_block_desc_unmerged,
make_tuple(make_merge_transform_v3_division_mod(
make_tuple(number<KThreadReadPerm>{},
number<KThreadWrite / kfold / KThreadReadPerm>{},
number<kfold>{},
number<K0PerThreadWrite>{},
K1)),
make_merge_transform_v3_division_mod(
make_tuple(number<M0 / mpair>{}, number<mpair>{}, number<M1>{}))),
make_tuple(sequence<0, 1, 4, 2, 7>{}, sequence<5, 6, 3>{}),
make_tuple(sequence<1>{}, sequence<0>{}));
return a_lds_block_desc_m_k;
}
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeBLdsBlockDescriptor()
{
using WarpGemm = WarpGemmMfmaDispatcher<typename Problem::ADataType,
typename Problem::BDataType,
typename Problem::CDataType,
Problem::BlockGemmShape::WarpTile::at(I0),
Problem::BlockGemmShape::WarpTile::at(I1),
Problem::BlockGemmShape::WarpTile::at(I2),
TransposeC>;
using BDataType = remove_cvref_t<typename Problem::BDataType>;
constexpr index_t NPerBlock = Problem::BlockGemmShape::kN;
constexpr index_t KPerBlock = Problem::BlockGemmShape::kK;
constexpr index_t K1 = WarpGemm::kK;
constexpr index_t K0 = KPerBlock / K1;
if constexpr(std::is_same<tensor_layout::gemm::ColumnMajor, LayoutB>::value)
{
// NLdsLayer * K0 as logical Bank
constexpr auto NLdsLayer = 32 * 4 / KPerBlock / sizeof(BDataType) < 1
? 1
: 32 * 4 / KPerBlock / sizeof(BDataType);
;
constexpr auto b_lds_block_desc = make_naive_tensor_descriptor(
make_tuple(K0 * number<NLdsLayer>{}, number<NPerBlock / NLdsLayer>{}, K1),
make_tuple(K1, number<KPerBlock * NLdsLayer>{}, I1));
constexpr auto b_lds_block_desc_permuted = transform_tensor_descriptor(
b_lds_block_desc,
make_tuple(make_xor_transform(make_tuple(number<NPerBlock / NLdsLayer>{},
number<K0 * NLdsLayer>{})),
make_pass_through_transform(K1)),
make_tuple(sequence<1, 0>{}, sequence<2>{}),
make_tuple(sequence<1, 0>{}, sequence<2>{}));
constexpr auto b_lds_block_desc_bk0_kNLdsLayer_n_bk1 = transform_tensor_descriptor(
b_lds_block_desc_permuted,
make_tuple(make_unmerge_transform(make_tuple(K0, number<NLdsLayer>{})),
make_pass_through_transform(number<NPerBlock / NLdsLayer>{}),
make_pass_through_transform(K1)),
make_tuple(sequence<0>{}, sequence<1>{}, sequence<2>{}),
make_tuple(sequence<0, 2>{}, sequence<1>{}, sequence<3>{}));
constexpr auto b_lds_block_desc_n_k = transform_tensor_descriptor(
b_lds_block_desc_bk0_kNLdsLayer_n_bk1,
make_tuple(make_merge_transform_v3_division_mod(make_tuple(K0, K1)),
make_merge_transform_v3_division_mod(
make_tuple(number<NPerBlock / NLdsLayer>{}, number<NLdsLayer>{}))),
make_tuple(sequence<0, 3>{}, sequence<1, 2>{}),
make_tuple(sequence<1>{}, sequence<0>{}));
return b_lds_block_desc_n_k;
}
else // RowMajor B
{
constexpr auto N0 = get_warp_size() * Problem::BlockGemmShape::BlockWarps::at(I1);
constexpr auto N1 = NPerBlock / N0;
constexpr auto KThreadWrite = Problem::kBlockSize / N0;
constexpr auto K0PerThreadWrite = K0 / KThreadWrite;
constexpr auto KThreadRead = 64 / WarpGemm::kN;
constexpr auto K0PerThreadRead = K0 / KThreadRead;
constexpr auto kfold =
(K1 * N0 * sizeof(BDataType) > 128) ? 1 : 128 / (K1 * N0 * sizeof(BDataType));
constexpr auto KThreadReadPerm =
(kfold * K0PerThreadWrite / K0PerThreadRead) > 1
? KThreadRead / (kfold * K0PerThreadWrite / K0PerThreadRead)
: KThreadRead;
// 1<=npair<=kN0
constexpr auto npair = (K1 * WarpGemm::kN * sizeof(BDataType) > 128)
? 1
: ((128 / (K1 * WarpGemm::kN * sizeof(BDataType))) > N0
? N0
: 128 / (K1 * WarpGemm::kN * sizeof(BDataType)));
constexpr auto b_lds_block_desc = make_naive_tensor_descriptor_packed(
make_tuple(number<KThreadWrite / kfold / KThreadReadPerm>{},
number<K0PerThreadWrite>{},
number<KThreadReadPerm * N1>{},
number<kfold * N0 / npair>{},
number<npair>{},
K1));
constexpr auto b_lds_block_desc_permuted = transform_tensor_descriptor(
b_lds_block_desc,
make_tuple(
make_pass_through_transform(number<KThreadWrite / kfold / KThreadReadPerm>{}),
make_pass_through_transform(number<K0PerThreadWrite>{}),
make_xor_transform(
make_tuple(number<KThreadReadPerm * N1>{}, number<kfold * N0 / npair>{})),
make_pass_through_transform(number<npair>{}),
make_pass_through_transform(K1)),
make_tuple(
sequence<0>{}, sequence<1>{}, sequence<2, 3>{}, sequence<4>{}, sequence<5>{}),
make_tuple(
sequence<0>{}, sequence<1>{}, sequence<2, 3>{}, sequence<4>{}, sequence<5>{}));
constexpr auto b_lds_block_desc_unmerged = transform_tensor_descriptor(
b_lds_block_desc_permuted,
make_tuple(
make_pass_through_transform(number<KThreadWrite / kfold / KThreadReadPerm>{}),
make_pass_through_transform(number<K0PerThreadWrite>{}),
make_unmerge_transform(make_tuple(number<KThreadReadPerm>{}, number<N1>{})),
make_unmerge_transform(make_tuple(number<kfold>{}, number<N0 / npair>{})),
make_pass_through_transform(number<npair>{}),
make_pass_through_transform(K1)),
make_tuple(sequence<0>{},
sequence<1>{},
sequence<2>{},
sequence<3>{},
sequence<4>{},
sequence<5>{}),
make_tuple(sequence<1>{},
sequence<2>{},
sequence<0, 3>{},
sequence<4, 5>{},
sequence<6>{},
sequence<7>{}));
constexpr auto b_lds_block_desc_n_k = transform_tensor_descriptor(
b_lds_block_desc_unmerged,
make_tuple(make_merge_transform_v3_division_mod(
make_tuple(number<KThreadReadPerm>{},
number<KThreadWrite / kfold / KThreadReadPerm>{},
number<kfold>{},
number<K0PerThreadWrite>{},
K1)),
make_merge_transform_v3_division_mod(
make_tuple(number<N0 / npair>{}, number<npair>{}, number<N1>{}))),
make_tuple(sequence<0, 1, 4, 2, 7>{}, sequence<5, 6, 3>{}),
make_tuple(sequence<1>{}, sequence<0>{}));
return b_lds_block_desc_n_k;
}
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr index_t GetSmemSizeA()
{
constexpr index_t smem_size_a = sizeof(typename Problem::ADataType) *
MakeALdsBlockDescriptor<Problem>().get_element_space_size();
return smem_size_a;
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr index_t GetSmemSizeB()
{
constexpr index_t smem_size_b = sizeof(typename Problem::BDataType) *
MakeBLdsBlockDescriptor<Problem>().get_element_space_size();
return smem_size_b;
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr index_t GetSmemSize()
{
constexpr index_t smem_size_a = GetSmemSizeA<Problem>();
constexpr index_t smem_size_b = GetSmemSizeB<Problem>();
index_t smem_size = 0;
smem_size += smem_size_a + smem_size_b;
return smem_size;
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeADramTileDistribution()
{
using WarpGemm = WarpGemmMfmaDispatcher<typename Problem::ADataType,
typename Problem::BDataType,
typename Problem::CDataType,
Problem::BlockGemmShape::WarpTile::at(I0),
Problem::BlockGemmShape::WarpTile::at(I1),
Problem::BlockGemmShape::WarpTile::at(I2),
TransposeC>;
constexpr index_t BlockSize = Problem::kBlockSize;
constexpr index_t MPerBlock = Problem::BlockGemmShape::kM;
constexpr index_t KPerBlock = Problem::BlockGemmShape::kK;
constexpr index_t K1 = WarpGemm::kK;
constexpr index_t K0 = KPerBlock / K1;
constexpr index_t M2 = get_warp_size() / K0;
constexpr index_t M1 = BlockSize / get_warp_size();
static_assert(M2 != 0, "M2 is zero, which will lead to a division by zero error.");
static_assert(M1 != 0, "M1 is zero, which will lead to a division by zero error.");
constexpr index_t M0 = MPerBlock / (M2 * M1);
return make_static_tile_distribution(
tile_distribution_encoding<sequence<1>,
tuple<sequence<M0, M1, M2>, sequence<K0, K1>>,
tuple<sequence<1>, sequence<1, 2>>,
tuple<sequence<1>, sequence<2, 0>>,
sequence<1, 2>,
sequence<0, 1>>{});
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto MakeBDramTileDistribution()
{
using WarpGemm = WarpGemmMfmaDispatcher<typename Problem::ADataType,
typename Problem::BDataType,
typename Problem::CDataType,
Problem::BlockGemmShape::WarpTile::at(I0),
Problem::BlockGemmShape::WarpTile::at(I1),
Problem::BlockGemmShape::WarpTile::at(I2),
TransposeC>;
constexpr index_t BlockSize = Problem::kBlockSize;
constexpr index_t NPerBlock = Problem::BlockGemmShape::kN;
constexpr index_t KPerBlock = Problem::BlockGemmShape::kK;
constexpr index_t K1 = WarpGemm::kK;
constexpr index_t K0 = KPerBlock / K1;
constexpr index_t N2 = get_warp_size() / K0;
constexpr index_t N1 = BlockSize / get_warp_size();
static_assert(N2 != 0, "M2 is zero, which will lead to a division by zero error.");
static_assert(N1 != 0, "M1 is zero, which will lead to a division by zero error.");
constexpr index_t N0 = NPerBlock / (N2 * N1);
return make_static_tile_distribution(
tile_distribution_encoding<sequence<1>,
tuple<sequence<N0, N1, N2>, sequence<K0, K1>>,
tuple<sequence<1>, sequence<1, 2>>,
tuple<sequence<1>, sequence<2, 0>>,
sequence<1, 2>,
sequence<0, 1>>{});
}
template <typename Problem>
CK_TILE_HOST_DEVICE static constexpr auto GetBlockGemm()
{
using AccDataType = float;
using BlockWarps = typename Problem::BlockGemmShape::BlockWarps;
using WarpTile = typename Problem::BlockGemmShape::WarpTile;
using WarpGemm = WarpGemmMfmaDispatcher<typename Problem::ADataType,
typename Problem::BDataType,
AccDataType,
WarpTile::at(I0),
WarpTile::at(I1),
WarpTile::at(I2),
TransposeC>;
using BlockGemmPolicy = BlockGemmASmemBSmemCRegV1CustomPolicy<typename Problem::ADataType,
typename Problem::BDataType,
typename Problem::CDataType,
BlockWarps,
WarpGemm>;
return BlockGemmASmemBSmemCRegV1<Problem, BlockGemmPolicy>{};
}
};
} // namespace ck_tile
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