mirror of
https://github.com/ROCm/composable_kernel.git
synced 2026-05-17 19:40:04 +00:00
ceaecc86ca
* Optimize GEMM on MI200/300:
1. Add new blockwise gemm pipeline
2. Add irregular splitk intances
* clang format + typo fix
* Fix a bug
* initial commit
* Add more instances to irregular splitk
* blkgemm pipeline v1~4 prototype
* Sanity Checked. Known issue:
1. Poor performance of splitk
2. Register spill on blkgemmpipeline v3
* Sanity and Performance fix:
1. fix a bug related to sanity in grouped b2c mapping
2. fix a bug related to sanity and performance in splitk offset
* Sanity and API update:
1. Remove prefetch stage
2. Fix valid check bug
3, Add first gemm_universal instance into ckProfiler
* Add NN instances for gemm universal
* 1. Add NT instances for gemm_universal
2. Fix a bug about Kpadding in gemm_universal
* Fix a bug regarding padding Odd K number
* remove kernel print
* Fix KPadding bug...
* Update safety check
* another try to fix kpadding..
* Sanity checked
* new instances..
* clang format+typo fix
* remove clang format script's change
* Add non-hotloop compile option
* 1. Add fp16xfp8 example
2. pull packed convert f8 from pr1150
* Some miscs.. opt and fix
* Add pipeline description docs
* Split universal gemm instance library to cut profiler compiling time
* uncomment cmakefile
* Fix a bug caused by blockwise_gemm_pipe_v2
* reduce default splitk to 1
* Add 224x256x64 tile size
* update, including:
1. Experiment pipeline 5~7
2. Optimization for pipeline 4
3. Organized instance library
* temp save
* temp save
* Permuted lds layout, sanity and function checked
* clang format
* Move OOB check from RunRead to RunWrite, for better software pipeline.
TODO: agpr spill when NN layout
* clangformat
* A/B splitpipe scheduler for v3
* Fix two bugs
* bug fix
* fix a bug in oob check
* Example for mixed fp16_fp8 gemm
* Clean experimental code blocks
* Add mixed precision gemm into profiler
* tempsave
* optimize m/n major lds layout
* Add RRR GEMM mixed precision instances
* Optimize f8 matrix transpose
* Add test_gemm_universal
* A/B spilt schedule for blkpip v5
* Take ds_read2 into iglp scheduling scheme
* format
* fixed cmake
* Add llvm-option into CI cmake flag
---------
Co-authored-by: Jing Zhang <jizhan@amd.com>
[ROCm/composable_kernel commit: f83e9701e9]
212 lines
7.3 KiB
C++
212 lines
7.3 KiB
C++
// SPDX-License-Identifier: MIT
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// Copyright (c) 2018-2023, Advanced Micro Devices, Inc. All rights reserved.
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#pragma once
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template <typename ProblemType>
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bool run_gemm(const ProblemType& problem_size, const ExecutionConfig& config)
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{
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#if defined(BUILD_INT4_EXAMPLE) && defined(CK_EXPERIMENTAL_BIT_INT_EXTENSION_INT4)
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static_assert(sizeof(ck::int4_t) == sizeof(int8_t));
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#endif
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using namespace ck::literals;
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auto M = problem_size.M;
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auto N = problem_size.N;
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auto K = problem_size.K;
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auto StrideA = problem_size.StrideA;
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auto StrideB = problem_size.StrideB;
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auto StrideC = problem_size.StrideC;
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auto KBatch = problem_size.KBatch;
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auto f_host_tensor_descriptor =
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[](std::size_t row, std::size_t col, std::size_t stride, auto layout) {
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if constexpr(std::is_same_v<decltype(layout), ck::tensor_layout::gemm::RowMajor>)
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{
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return HostTensorDescriptor({row, col}, {stride, 1_uz});
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}
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else
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{
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return HostTensorDescriptor({row, col}, {1_uz, stride});
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}
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};
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auto f_get_default_stride =
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[](std::size_t row, std::size_t col, std::size_t stride, auto layout) {
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if(stride == 0)
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{
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// give a chance if stride is zero, return a default packed stride
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if constexpr(std::is_same_v<decltype(layout), ck::tensor_layout::gemm::RowMajor>)
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{
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return col;
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}
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else
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{
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return row;
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}
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}
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else
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return stride;
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};
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StrideA = f_get_default_stride(M, K, StrideA, ALayout{});
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StrideB = f_get_default_stride(K, N, StrideB, BLayout{});
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StrideC = f_get_default_stride(M, N, StrideC, CLayout{});
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Tensor<ADataType> a_m_k(f_host_tensor_descriptor(M, K, StrideA, ALayout{}));
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Tensor<BDataType> b_k_n(f_host_tensor_descriptor(K, N, StrideB, BLayout{}));
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switch(config.init_method)
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{
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case 0:
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a_m_k.GenerateTensorValue(GeneratorTensor_1<ADataType>{1});
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b_k_n.GenerateTensorValue(GeneratorTensor_1<BDataType>{1});
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break;
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case 1:
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a_m_k.GenerateTensorValue(GeneratorTensor_2<ADataType>{-2, 2});
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b_k_n.GenerateTensorValue(GeneratorTensor_2<BDataType>{-2, 2});
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break;
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case 2:
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a_m_k.GenerateTensorValue(GeneratorTensor_1<ADataType>{1});
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b_k_n.GenerateTensorValue(GeneratorTensor_2<BDataType>{-2, 2});
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break;
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case 3:
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a_m_k.GenerateTensorValue(GeneratorTensor_2<ADataType>{-2, 2});
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b_k_n.GenerateTensorValue(GeneratorTensor_1<BDataType>{1});
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break;
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default:
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a_m_k.GenerateTensorValue(GeneratorTensor_3<ADataType>{0.0, 1.0});
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b_k_n.GenerateTensorValue(GeneratorTensor_3<BDataType>{-0.5, 0.5});
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}
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#if 0
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printf("B matrix:\n");
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for (int in = 0; in < N; in++)
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{
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for (int ik = 0; ik < K; ik++)
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{
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printf("%02x ", *(reinterpret_cast<uint8_t*>(&b_k_n(ik,in))));
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if(ik%8==7) printf("|");
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}
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printf("\n");
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}
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#endif
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Tensor<CDataType> c_m_n_host_result(f_host_tensor_descriptor(M, N, StrideC, CLayout{}));
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Tensor<CDataType> c_m_n_device_result(f_host_tensor_descriptor(M, N, StrideC, CLayout{}));
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std::cout << "a_m_k: " << a_m_k.mDesc << std::endl;
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std::cout << "b_k_n: " << b_k_n.mDesc << std::endl;
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std::cout << "c_m_n: " << c_m_n_host_result.mDesc << std::endl;
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#ifdef BUILD_INT4_EXAMPLE
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DeviceMem a_m_k_device_buf(sizeof(KernelADataType) * a_m_k.mDesc.GetElementSpaceSize());
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DeviceMem b_k_n_device_buf(sizeof(KernelBDataType) * b_k_n.mDesc.GetElementSpaceSize());
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DeviceMem c_m_n_device_buf(sizeof(KernelCDataType) *
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c_m_n_device_result.mDesc.GetElementSpaceSize());
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const Tensor<KernelADataType> a_m_k_converted(a_m_k);
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const Tensor<KernelBDataType> b_k_n_converted(b_k_n);
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a_m_k_device_buf.ToDevice(a_m_k_converted.mData.data());
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b_k_n_device_buf.ToDevice(b_k_n_converted.mData.data());
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#else
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DeviceMem a_m_k_device_buf(sizeof(ADataType) * a_m_k.mDesc.GetElementSpaceSize());
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DeviceMem b_k_n_device_buf(sizeof(BDataType) * b_k_n.mDesc.GetElementSpaceSize());
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DeviceMem c_m_n_device_buf(sizeof(CDataType) * c_m_n_device_result.mDesc.GetElementSpaceSize());
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a_m_k_device_buf.ToDevice(a_m_k.mData.data());
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b_k_n_device_buf.ToDevice(b_k_n.mData.data());
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#endif
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DeviceMem workspace;
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auto a_element_op = AElementOp{};
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auto b_element_op = BElementOp{};
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auto c_element_op = CElementOp{};
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// do GEMM
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auto gemm = DeviceGemmV2Instance{};
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auto invoker = gemm.MakeInvoker();
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float ave_time = 0;
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auto argument = gemm.MakeArgument(
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#ifdef BUILD_INT4_EXAMPLE
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static_cast<KernelADataType*>(a_m_k_device_buf.GetDeviceBuffer()),
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static_cast<KernelBDataType*>(b_k_n_device_buf.GetDeviceBuffer()),
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static_cast<KernelCDataType*>(c_m_n_device_buf.GetDeviceBuffer()),
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#else
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static_cast<ADataType*>(a_m_k_device_buf.GetDeviceBuffer()),
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static_cast<BDataType*>(b_k_n_device_buf.GetDeviceBuffer()),
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static_cast<CDataType*>(c_m_n_device_buf.GetDeviceBuffer()),
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#endif
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M,
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N,
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K,
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StrideA,
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StrideB,
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StrideC,
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KBatch,
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a_element_op,
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b_element_op,
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c_element_op);
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if(!gemm.IsSupportedArgument(argument))
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{
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std::cerr << gemm.GetTypeString() << " does not support this problem" << std::endl;
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return true;
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}
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bool pass = true;
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if(config.do_verification)
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{
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auto ref_gemm = ReferenceGemmInstance{};
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auto ref_invoker = ref_gemm.MakeInvoker();
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auto ref_argument = ref_gemm.MakeArgument(
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a_m_k, b_k_n, c_m_n_host_result, PassThrough{}, PassThrough{}, PassThrough{});
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ref_invoker.Run(ref_argument);
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ave_time = invoker.Run(argument, StreamConfig{nullptr, false, 1});
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#ifdef BUILD_INT4_EXAMPLE
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Tensor<CDataType> c_m_n_device_result_converted(c_m_n_host_result.mDesc);
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c_m_n_device_buf.FromDevice(c_m_n_device_result_converted.mData.data());
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c_m_n_device_result = c_m_n_device_result_converted.CopyAsType<CDataType>();
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return ck::utils::check_err(c_m_n_device_result_converted, c_m_n_host_result);
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#else
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c_m_n_device_buf.FromDevice(c_m_n_device_result.mData.data());
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pass &= ck::utils::check_err(c_m_n_device_result, c_m_n_host_result);
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#endif
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}
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if(config.time_kernel)
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{
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ave_time = invoker.Run(argument, StreamConfig{nullptr, config.time_kernel});
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std::size_t flop = 2_uz * M * N * K;
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std::size_t num_btype =
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sizeof(ADataType) * M * K + sizeof(BDataType) * K * N + sizeof(CDataType) * M * N;
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float tflops = static_cast<float>(flop) / 1.E9 / ave_time;
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float gb_per_sec = num_btype / 1.E6 / ave_time;
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std::cout << "Perf: " << ave_time << " ms, " << tflops << " TFlops, " << gb_per_sec
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<< " GB/s, " << gemm.GetTypeString() << std::endl;
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}
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return pass;
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}
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bool run_gemm_splitk_example(int argc, char* argv[])
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{
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ProblemSizeSplitK problem_size;
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ExecutionConfig config;
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return !parse_cmd_args(argc, argv, problem_size, config) || run_gemm(problem_size, config);
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}
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