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Unverified Commit 81c942cd authored by Chao Liu's avatar Chao Liu Committed by GitHub
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Deprecate static kernel (#42) 

* deprecate static kernels
parent b8b2d0a6
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driver/include/device_convolution_backward_data_implicit_gemm_v1r1_nchw_kcyx_nkhw.hpp deleted 100644 → 0
View file @ b8b2d0a6
#pragma once
#include <unistd.h>
#include "device.hpp"
#include "host_tensor.hpp"
#include "gridwise_operation_wrapper.hpp"
#include "gridwise_convolution_backward_data_implicit_gemm_v1r1_nchw_kcyx_nkhw.hpp"
namespace launcher {
using namespace ck;
template <typename T,
typename InDesc,
typename WeiDesc,
typename OutDesc,
typename ConvStrides,
typename ConvDilations,
typename InLeftPads,
typename InRightPads>
void device_convolution_backward_data_implicit_gemm_v1r1_nchw_kcyx_nkhw(InDesc in_nchw_desc,
Tensor<T>& in_nchw,
WeiDesc wei_kcyx_desc,
const Tensor<T>& wei_kcyx,
OutDesc out_nkhw_desc,
const Tensor<T>& out_nkhw,
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
std::size_t nrepeat)
{
using namespace ck;
constexpr index_t N = out_nkhw_desc.GetLengths()[0];
constexpr index_t K = out_nkhw_desc.GetLengths()[1];
constexpr index_t Ho = out_nkhw_desc.GetLengths()[2];
constexpr index_t Wo = out_nkhw_desc.GetLengths()[3];
constexpr index_t C = wei_kcyx_desc.GetLengths()[1];
constexpr index_t Y = wei_kcyx_desc.GetLengths()[2];
constexpr index_t X = wei_kcyx_desc.GetLengths()[3];
std::size_t data_sz = sizeof(T);
DeviceMem in_nchw_device_buf(data_sz * in_nchw.mDesc.GetElementSpace());
DeviceMem wei_kcyx_device_buf(data_sz * wei_kcyx.mDesc.GetElementSpace());
DeviceMem out_nkhw_device_buf(data_sz * out_nkhw.mDesc.GetElementSpace());
in_nchw_device_buf.ToDevice(in_nchw.mData.data());
wei_kcyx_device_buf.ToDevice(wei_kcyx.mData.data());
out_nkhw_device_buf.ToDevice(out_nkhw.mData.data());
#if 1
// BlockSize = 256, each thread hold 64 data
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<8, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 1
// BlockSize = 256, each thread hold 64 data
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<8, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<1, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<8, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 1
// BlockSize = 256, each thread hold 64 data
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<2, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<8, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<8, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#endif
constexpr index_t GemmM = C * Y * X;
constexpr index_t GemmN = N * Ho * Wo;
constexpr index_t GridSize = math::integer_divide_ceil(GemmM, GemmMPerBlock) *
math::integer_divide_ceil(GemmN, GemmNPerBlock);
printf("%s: BlockSize %u, GridSize %u \n", __func__, BlockSize, GridSize);
using gridwise_conv_bwd_data = GridwiseConvolutionBackwardDataImplicitGemm_v1r1_nchw_kcyx_nkhw<
GridSize,
BlockSize,
T,
T,
decltype(in_nchw_desc),
decltype(wei_kcyx_desc),
decltype(out_nkhw_desc),
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
GemmMPerBlock,
GemmNPerBlock,
GemmKPerBlock,
GemmMPerThread,
GemmNPerThread,
GemmKPerThread,
GemmMLevel0Cluster,
GemmNLevel0Cluster,
GemmMLevel1Cluster,
GemmNLevel1Cluster,
GemmThreadGemmDataPerReadM,
GemmThreadGemmDataPerReadN,
GemmABlockCopyThreadSliceLengths_GemmK_GemmM,
GemmABlockCopyThreadClusterLengths_GemmK_GemmM,
GemmABlockCopySrcDataPerRead_GemmM,
GemmABlockCopyDstDataPerWrite_GemmM,
GemmBBlockCopyThreadSliceLengths_GemmK_GemmN,
GemmBBlockCopyThreadClusterLengths_GemmK_GemmN,
GemmBBlockCopySrcDataPerRead_GemmN,
GemmBBlockCopyDstDataPerWrite_GemmN,
GemmCThreadCopyDstDataPerWrite_GemmN1>;
for(index_t i = 0; i < 1; ++i)
{
std::cout << "Start running " << nrepeat << " times..." << std::endl;
KernelTimer timer;
timer.Start();
for(index_t j = 0; j < nrepeat; ++j)
{
launch_kernel(run_gridwise_operation<gridwise_conv_bwd_data,
T* const __restrict__,
const T* const __restrict__,
const T* const __restrict__>,
dim3(GridSize),
dim3(BlockSize),
0,
0,
static_cast<T*>(in_nchw_device_buf.GetDeviceBuffer()),
static_cast<T*>(wei_kcyx_device_buf.GetDeviceBuffer()),
static_cast<T*>(out_nkhw_device_buf.GetDeviceBuffer()));
}
timer.End();
float ave_time = timer.GetElapsedTime() / nrepeat;
float perf = (float)calculate_convolution_flops(InDesc{}, WeiDesc{}, OutDesc{}) /
(std::size_t(1000) * 1000 * 1000) / ave_time;
std::cout << "Average time : " << ave_time << " ms, " << perf << " TFlop/s" << std::endl;
}
in_nchw_device_buf.FromDevice(in_nchw.mData.data());
}
} // namespace launcher
driver/include/device_convolution_backward_data_implicit_gemm_v1r2_nchw_kcyx_nkhw.hpp deleted 100644 → 0
View file @ b8b2d0a6
#pragma once
#include <unistd.h>
#include "device.hpp"
#include "host_tensor.hpp"
#include "gridwise_operation_wrapper.hpp"
#include "gridwise_convolution_backward_data_implicit_gemm_v1r2_nchw_kcyx_nkhw_lds_double_buffer.hpp"
namespace launcher {
using namespace ck;
template <typename T,
typename InDesc,
typename WeiDesc,
typename OutDesc,
typename ConvStrides,
typename ConvDilations,
typename LeftPads,
typename RightPads>
void device_convolution_backward_data_implicit_gemm_v1r2_nchw_kcyx_nkhw(InDesc in_nchw_desc,
Tensor<T>& in_nchw,
WeiDesc wei_kcyx_desc,
const Tensor<T>& wei_kcyx,
OutDesc out_nkhw_desc,
const Tensor<T>& out_nkhw,
ConvStrides,
ConvDilations,
LeftPads,
RightPads,
std::size_t nrepeat)
{
using namespace ck;
constexpr index_t N = out_nkhw_desc.GetLengths()[0];
constexpr index_t K = out_nkhw_desc.GetLengths()[1];
constexpr index_t Ho = out_nkhw_desc.GetLengths()[2];
constexpr index_t Wo = out_nkhw_desc.GetLengths()[3];
constexpr index_t C = wei_kcyx_desc.GetLengths()[1];
constexpr index_t Y = wei_kcyx_desc.GetLengths()[2];
constexpr index_t X = wei_kcyx_desc.GetLengths()[3];
std::size_t data_sz = sizeof(T);
DeviceMem in_nchw_device_buf(data_sz * in_nchw.mDesc.GetElementSpace());
DeviceMem wei_kcyx_device_buf(data_sz * wei_kcyx.mDesc.GetElementSpace());
DeviceMem out_nkhw_device_buf(data_sz * out_nkhw.mDesc.GetElementSpace());
in_nchw_device_buf.ToDevice(in_nchw.mData.data());
wei_kcyx_device_buf.ToDevice(wei_kcyx.mData.data());
out_nkhw_device_buf.ToDevice(out_nkhw.mData.data());
#if 1
// BlockSize = 256, each thread hold 64 data
constexpr index_t BlockSize = 256;
constexpr index_t BPerBlock = 32;
constexpr index_t EPerBlock = 32;
constexpr index_t KPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using OutBlockCopySubLengths_K_B_N0 = Sequence<2, 1, 4>;
using OutBlockCopyClusterLengths_K_B_N0 = Sequence<8, 32, 1>;
constexpr index_t OutBlockCopySrcDataPerRead_B = 1;
constexpr index_t OutBlockCopyDstDataPerWrite_N0 = 4;
using WeiBlockCopySubLengths_K_E_C0 = Sequence<2, 4, 1>;
using WeiBlockCopyClusterLengths_K_E_C0 = Sequence<8, 8, 4>;
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_C0 = 1;
constexpr index_t InThreadCopyDstDataPerWrite_B = 1;
#endif
constexpr index_t C0 = GemmMPerThread;
constexpr index_t N0 = GemmNPerThread;
constexpr index_t C1 = C / C0;
constexpr index_t N1 = N / N0;
constexpr index_t E = C1 * Y * X;
constexpr index_t B = (N1 * Ho * Wo);
constexpr index_t GridSize =
((E + EPerBlock - 1) / EPerBlock) * ((B + BPerBlock - 1) / BPerBlock);
printf("%s: BlockSize %u, GridSize %u \n", __func__, BlockSize, GridSize);
using gridwise_conv_bwd_data =
GridwiseConvolutionBackwardDataImplicitGemm_v1r2_nchw_kcyx_nkhw_lds_double_buffer<
GridSize,
BlockSize,
T,
T,
decltype(in_nchw_desc),
decltype(wei_kcyx_desc),
decltype(out_nkhw_desc),
ConvStrides,
ConvDilations,
LeftPads,
RightPads,
EPerBlock,
BPerBlock,
KPerBlock,
GemmMPerThread,
GemmNPerThread,
GemmKPerThread,
GemmMLevel0Cluster,
GemmNLevel0Cluster,
GemmMLevel1Cluster,
GemmNLevel1Cluster,
GemmDataPerReadA,
GemmDataPerReadB,
OutBlockCopySubLengths_K_B_N0,
OutBlockCopyClusterLengths_K_B_N0,
OutBlockCopySrcDataPerRead_B,
OutBlockCopyDstDataPerWrite_N0,
WeiBlockCopySubLengths_K_E_C0,
WeiBlockCopyClusterLengths_K_E_C0,
WeiBlockCopySrcDataPerRead_E,
WeiBlockCopyDstDataPerWrite_C0,
InThreadCopyDstDataPerWrite_B>;
for(index_t i = 0; i < 5; ++i)
{
std::cout << "Start running " << nrepeat << " times..." << std::endl;
KernelTimer timer;
timer.Start();
for(index_t j = 0; j < nrepeat; ++j)
{
launch_kernel(run_gridwise_operation<gridwise_conv_bwd_data,
T* const __restrict__,
const T* const __restrict__,
const T* const __restrict__>,
dim3(GridSize),
dim3(BlockSize),
0,
0,
static_cast<T*>(in_nchw_device_buf.GetDeviceBuffer()),
static_cast<T*>(wei_kcyx_device_buf.GetDeviceBuffer()),
static_cast<T*>(out_nkhw_device_buf.GetDeviceBuffer()));
}
timer.End();
float ave_time = timer.GetElapsedTime() / nrepeat;
float perf = (float)calculate_convolution_flops(InDesc{}, WeiDesc{}, OutDesc{}) /
(std::size_t(1000) * 1000 * 1000) / ave_time;
std::cout << "Average time : " << ave_time << " ms, " << perf << " TFlop/s" << std::endl;
}
in_nchw_device_buf.FromDevice(in_nchw.mData.data());
}
} // namespace launcher
driver/include/device_convolution_backward_data_implicit_gemm_v4r1_nchw_kcyx_nkhw.hpp deleted 100644 → 0
View file @ b8b2d0a6
#pragma once
#include <unistd.h>
#include "device.hpp"
#include "host_tensor.hpp"
#include "gridwise_operation_wrapper.hpp"
#include "gridwise_convolution_backward_data_implicit_gemm_v4r1_nchw_kcyx_nkhw.hpp"
namespace launcher {
using namespace ck;
template <typename T,
typename InDesc,
typename WeiDesc,
typename OutDesc,
typename ConvStrides,
typename ConvDilations,
typename InLeftPads,
typename InRightPads>
void device_convolution_backward_data_implicit_gemm_v4r1_nchw_kcyx_nkhw(InDesc in_nchw_desc,
Tensor<T>& in_nchw,
WeiDesc wei_kcyx_desc,
const Tensor<T>& wei_kcyx,
OutDesc out_nkhw_desc,
const Tensor<T>& out_nkhw,
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
std::size_t nrepeat)
{
constexpr index_t N = out_nkhw_desc.GetLengths()[0];
constexpr index_t K = out_nkhw_desc.GetLengths()[1];
constexpr index_t C = wei_kcyx_desc.GetLengths()[1];
constexpr index_t Hi = in_nchw_desc.GetLengths()[2];
constexpr index_t Wi = in_nchw_desc.GetLengths()[3];
constexpr index_t Ho = out_nkhw_desc.GetLengths()[2];
constexpr index_t Wo = out_nkhw_desc.GetLengths()[3];
constexpr index_t Y = wei_kcyx_desc.GetLengths()[2];
constexpr index_t X = wei_kcyx_desc.GetLengths()[3];
constexpr index_t ConvStrideH = ConvStrides{}[0];
constexpr index_t ConvStrideW = ConvStrides{}[1];
constexpr index_t ConvDilationH = ConvDilations{}[0];
constexpr index_t ConvDilationW = ConvDilations{}[1];
std::size_t data_sz = sizeof(T);
DeviceMem in_nchw_device_buf(data_sz * in_nchw.mDesc.GetElementSpace());
DeviceMem wei_kcyx_device_buf(data_sz * wei_kcyx.mDesc.GetElementSpace());
DeviceMem out_nkhw_device_buf(data_sz * out_nkhw.mDesc.GetElementSpace());
in_nchw_device_buf.ToDevice(in_nchw.mData.data());
wei_kcyx_device_buf.ToDevice(wei_kcyx.mData.data());
out_nkhw_device_buf.ToDevice(out_nkhw.mData.data());
#if 1
// cdata = 64, BlockSize = 256, 128x128x8
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<8, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x8
// GemmABlockCopySrcDataPerRead_GemmM = 4
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<8, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x16
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 8>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<16, 16>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<8, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#endif
constexpr index_t GcdStrideDilationH = math::gcd(ConvStrideH, ConvDilationH);
constexpr index_t GcdStrideDilationW = math::gcd(ConvStrideW, ConvDilationW);
constexpr index_t YTilda = ConvStrideH / GcdStrideDilationH;
constexpr index_t XTilda = ConvStrideW / GcdStrideDilationW;
constexpr index_t YDot = math::integer_divide_ceil(Y, YTilda);
constexpr index_t XDot = math::integer_divide_ceil(X, XTilda);
constexpr index_t HTilda = Ho + math::integer_divide_ceil(ConvDilationH * (Y - 1), ConvStrideH);
constexpr index_t WTilda = Wo + math::integer_divide_ceil(ConvDilationW * (X - 1), ConvStrideW);
constexpr index_t HTildaLeft = math::integer_divide_floor(
math::max(0, InLeftPads{}[0] - ConvDilationH * (YTilda - 1)), ConvStrides{}[0]);
constexpr index_t WTildaLeft = math::integer_divide_floor(
math::max(0, InLeftPads{}[1] - ConvDilationW * (XTilda - 1)), ConvStrides{}[1]);
constexpr index_t HTildaRight = math::min(
HTilda, math::integer_divide_ceil(InLeftPads{}[0] + Hi - 1, ConvStrides{}[0]) + 1);
constexpr index_t WTildaRight = math::min(
WTilda, math::integer_divide_ceil(InLeftPads{}[1] + Wi - 1, ConvStrides{}[1]) + 1);
constexpr index_t HTildaSlice = HTildaRight - HTildaLeft;
constexpr index_t WTildaSlice = WTildaRight - WTildaLeft;
constexpr index_t GemmM = C;
constexpr index_t GemmN = N * HTildaSlice * WTildaSlice;
constexpr index_t GridSize = math::integer_divide_ceil(GemmM, GemmMPerBlock) *
math::integer_divide_ceil(GemmN, GemmNPerBlock);
printf("%s: BlockSize %u, GridSize %u \n", __func__, BlockSize, GridSize);
for(index_t i = 0; i < 5; ++i)
{
std::cout << "Start running " << nrepeat << " times..." << std::endl;
KernelTimer timer;
timer.Start();
for(index_t i = 0; i < nrepeat; ++i)
{
using GridwiseConvBwdData =
GridwiseConvolutionBackwardDataImplicitGemm_v4r1_nchw_kcyx_nkhw<
GridSize,
BlockSize,
T,
T,
decltype(in_nchw_desc),
decltype(wei_kcyx_desc),
decltype(out_nkhw_desc),
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
GemmMPerBlock,
GemmNPerBlock,
GemmKPerBlock,
GemmMPerThread,
GemmNPerThread,
GemmKPerThread,
GemmMLevel0Cluster,
GemmNLevel0Cluster,
GemmMLevel1Cluster,
GemmNLevel1Cluster,
GemmThreadGemmDataPerReadM,
GemmThreadGemmDataPerReadN,
GemmABlockCopyThreadSliceLengths_GemmK_GemmM,
GemmABlockCopyThreadClusterLengths_GemmK_GemmM,
GemmABlockCopySrcDataPerRead_GemmM,
GemmABlockCopyDstDataPerWrite_GemmM,
GemmBBlockCopyThreadSliceLengths_GemmK_GemmN,
GemmBBlockCopyThreadClusterLengths_GemmK_GemmN,
GemmBBlockCopySrcDataPerRead_GemmN,
GemmBBlockCopyDstDataPerWrite_GemmN,
GemmCThreadCopyDstDataPerWrite_GemmN1>;
static_for<0, GridwiseConvBwdData::GetNumberOfGemm(), 1>{}([&](auto gemm_id) {
constexpr auto gemm_sizes = GridwiseConvBwdData::GetGemmSize(gemm_id);
constexpr index_t gemm_k = gemm_sizes.At(2);
constexpr bool is_gemm_not_empty = gemm_k > 0;
// only compile and run if GEMM is no empty
static_if<is_gemm_not_empty>{}([&](auto fwd) {
launch_kernel(run_gridwise_operation<GridwiseConvBwdData,
T* const __restrict__,
const T* const __restrict__,
const T* const __restrict__,
decltype(gemm_id)>,
dim3(GridSize),
dim3(BlockSize),
0,
0,
static_cast<T*>(in_nchw_device_buf.GetDeviceBuffer()),
static_cast<T*>(wei_kcyx_device_buf.GetDeviceBuffer()),
static_cast<T*>(out_nkhw_device_buf.GetDeviceBuffer()),
fwd(gemm_id));
});
});
}
timer.End();
float ave_time = timer.GetElapsedTime() / nrepeat;
float perf = (float)calculate_convolution_flops(InDesc{}, WeiDesc{}, OutDesc{}) /
(std::size_t(1000) * 1000 * 1000) / ave_time;
std::cout << "Average time : " << ave_time << " ms, " << perf << " TFlop/s" << std::endl;
}
in_nchw_device_buf.FromDevice(in_nchw.mData.data());
}
} // namespace launcher
driver/include/device_convolution_backward_data_implicit_gemm_v5r1_nhwc_kyxc_nhwk.hpp deleted 100644 → 0
View file @ b8b2d0a6
#pragma once
#include <unistd.h>
#include "device.hpp"
#include "host_tensor.hpp"
#include "gridwise_operation_wrapper.hpp"
#include "gridwise_convolution_backward_data_implicit_gemm_v5r1_nhwc_kyxc_nhwk.hpp"
namespace launcher {
using namespace ck;
template <typename T,
typename InDesc,
typename WeiDesc,
typename OutDesc,
typename ConvStrides,
typename ConvDilations,
typename InLeftPads,
typename InRightPads>
void device_convolution_backward_data_implicit_gemm_v5r1_nhwc_kyxc_nhwk(InDesc in_nchw_desc,
Tensor<T>& in_nchw,
WeiDesc wei_kcyx_desc,
const Tensor<T>& wei_kcyx,
OutDesc out_nkhw_desc,
const Tensor<T>& out_nkhw,
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
std::size_t nrepeat)
{
constexpr index_t N = out_nkhw_desc.GetLengths()[0];
constexpr index_t K = out_nkhw_desc.GetLengths()[1];
constexpr index_t C = wei_kcyx_desc.GetLengths()[1];
constexpr index_t Hi = in_nchw_desc.GetLengths()[2];
constexpr index_t Wi = in_nchw_desc.GetLengths()[3];
constexpr index_t Ho = out_nkhw_desc.GetLengths()[2];
constexpr index_t Wo = out_nkhw_desc.GetLengths()[3];
constexpr index_t Y = wei_kcyx_desc.GetLengths()[2];
constexpr index_t X = wei_kcyx_desc.GetLengths()[3];
constexpr index_t ConvStrideH = ConvStrides{}[0];
constexpr index_t ConvStrideW = ConvStrides{}[1];
constexpr index_t ConvDilationH = ConvDilations{}[0];
constexpr index_t ConvDilationW = ConvDilations{}[1];
constexpr auto in_nhwc_desc = make_native_tensor_descriptor_packed(Sequence<N, Hi, Wi, C>{});
constexpr auto wei_kyxc_desc = make_native_tensor_descriptor_packed(Sequence<K, Y, X, C>{});
constexpr auto out_nhwk_desc = make_native_tensor_descriptor_packed(Sequence<N, Ho, Wo, K>{});
Tensor<float> in_nhwc(make_HostTensorDescriptor(in_nhwc_desc));
Tensor<float> wei_kyxc(make_HostTensorDescriptor(wei_kyxc_desc));
Tensor<float> out_nhwk(make_HostTensorDescriptor(out_nhwk_desc));
auto f_nchw2nhwc = [&](auto n, auto hi, auto wi, auto c) {
in_nhwc(n, hi, wi, c) = in_nchw(n, c, hi, wi);
};
auto f_kcyx2kyxc = [&](auto k, auto y, auto x, auto c) {
wei_kyxc(k, y, x, c) = wei_kcyx(k, c, y, x);
};
auto f_nkhw2nhwk = [&](auto n, auto ho, auto wo, auto k) {
out_nhwk(n, ho, wo, k) = out_nkhw(n, k, ho, wo);
};
make_ParallelTensorFunctor(f_nchw2nhwc, N, Hi, Wi, C)(std::thread::hardware_concurrency());
make_ParallelTensorFunctor(f_kcyx2kyxc, K, Y, X, C)(std::thread::hardware_concurrency());
make_ParallelTensorFunctor(f_nkhw2nhwk, N, Ho, Wo, K)(std::thread::hardware_concurrency());
std::size_t data_sz = sizeof(T);
DeviceMem in_nhwc_device_buf(data_sz * in_nhwc.mDesc.GetElementSpace());
DeviceMem wei_kyxc_device_buf(data_sz * wei_kyxc.mDesc.GetElementSpace());
DeviceMem out_nhwk_device_buf(data_sz * out_nhwk.mDesc.GetElementSpace());
in_nhwc_device_buf.ToDevice(in_nhwc.mData.data());
wei_kyxc_device_buf.ToDevice(wei_kyxc.mData.data());
out_nhwk_device_buf.ToDevice(out_nhwk.mData.data());
#if 0
// cdata = 64, BlockSize = 256, 128x128x8
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK0_GemmK1_GemmK2_GemmM = Sequence<1, 1, 1, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK0_GemmK1_GemmK2_GemmM = Sequence<1, 1, 8, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK0_GemmK1_GemmK2_GemmN = Sequence<1, 1, 4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK0_GemmK1_GemmK2_GemmN = Sequence<1, 1, 2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmK2 = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x16
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmThreadGemmDataPerReadM = 4;
constexpr index_t GemmThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK0_GemmK1_GemmK2_GemmM = Sequence<1, 1, 2, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK0_GemmK1_GemmK2_GemmM = Sequence<1, 1, 8, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmM = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK0_GemmK1_GemmK2_GemmN = Sequence<1, 1, 8, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK0_GemmK1_GemmK2_GemmN = Sequence<1, 1, 2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmK2 = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#endif
constexpr index_t GcdStrideDilationH = math::gcd(ConvStrideH, ConvDilationH);
constexpr index_t GcdStrideDilationW = math::gcd(ConvStrideW, ConvDilationW);
constexpr index_t YTilda = ConvStrideH / GcdStrideDilationH;
constexpr index_t XTilda = ConvStrideW / GcdStrideDilationW;
constexpr index_t YDot = math::integer_divide_ceil(Y, YTilda);
constexpr index_t XDot = math::integer_divide_ceil(X, XTilda);
constexpr index_t HTilda = Ho + math::integer_divide_ceil(ConvDilationH * (Y - 1), ConvStrideH);
constexpr index_t WTilda = Wo + math::integer_divide_ceil(ConvDilationW * (X - 1), ConvStrideW);
constexpr index_t HTildaLeft = math::integer_divide_floor(
math::max(0, InLeftPads{}[0] - ConvDilationH * (YTilda - 1)), ConvStrides{}[0]);
constexpr index_t WTildaLeft = math::integer_divide_floor(
math::max(0, InLeftPads{}[1] - ConvDilationW * (XTilda - 1)), ConvStrides{}[1]);
constexpr index_t HTildaRight = math::min(
HTilda, math::integer_divide_ceil(InLeftPads{}[0] + Hi - 1, ConvStrides{}[0]) + 1);
constexpr index_t WTildaRight = math::min(
WTilda, math::integer_divide_ceil(InLeftPads{}[1] + Wi - 1, ConvStrides{}[1]) + 1);
constexpr index_t HTildaSlice = HTildaRight - HTildaLeft;
constexpr index_t WTildaSlice = WTildaRight - WTildaLeft;
constexpr index_t GemmM = C;
constexpr index_t GemmN = N * HTildaSlice * WTildaSlice;
constexpr index_t GridSize = math::integer_divide_ceil(GemmM, GemmMPerBlock) *
math::integer_divide_ceil(GemmN, GemmNPerBlock);
printf("%s: BlockSize %u, GridSize %u \n", __func__, BlockSize, GridSize);
for(index_t i = 0; i < 5; ++i)
{
std::cout << "Start running " << nrepeat << " times..." << std::endl;
KernelTimer timer;
timer.Start();
for(index_t i = 0; i < nrepeat; ++i)
{
using GridwiseConvBwdData =
GridwiseConvolutionBackwardDataImplicitGemm_v5r1_nhwc_kyxc_nhwk<
GridSize,
BlockSize,
T,
T,
decltype(in_nhwc_desc),
decltype(wei_kyxc_desc),
decltype(out_nhwk_desc),
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
GemmMPerBlock,
GemmNPerBlock,
GemmKPerBlock,
GemmMPerThread,
GemmNPerThread,
GemmKPerThread,
GemmMLevel0Cluster,
GemmNLevel0Cluster,
GemmMLevel1Cluster,
GemmNLevel1Cluster,
GemmThreadGemmDataPerReadM,
GemmThreadGemmDataPerReadN,
GemmABlockCopyThreadSliceLengths_GemmK0_GemmK1_GemmK2_GemmM,
GemmABlockCopyThreadClusterLengths_GemmK0_GemmK1_GemmK2_GemmM,
GemmABlockCopySrcDataPerRead_GemmM,
GemmABlockCopyDstDataPerWrite_GemmM,
GemmBBlockCopyThreadSliceLengths_GemmK0_GemmK1_GemmK2_GemmN,
GemmBBlockCopyThreadClusterLengths_GemmK0_GemmK1_GemmK2_GemmN,
GemmBBlockCopySrcDataPerRead_GemmK2,
GemmBBlockCopyDstDataPerWrite_GemmN,
GemmCThreadCopyDstDataPerWrite_GemmN1>;
static_for<0, GridwiseConvBwdData::GetNumberOfGemm(), 1>{}([&](auto gemm_id) {
constexpr auto gemm_sizes = GridwiseConvBwdData::GetGemmSize(gemm_id);
constexpr index_t gemm_k2 = gemm_sizes[Number<4>{}];
constexpr bool is_gemm_not_empty = gemm_k2 > 0;
// only compile and run if GEMM is no empty
static_if<is_gemm_not_empty>{}([&](auto fwd) {
launch_kernel(run_gridwise_operation<GridwiseConvBwdData,
T* const __restrict__,
const T* const __restrict__,
const T* const __restrict__,
decltype(gemm_id)>,
dim3(GridSize),
dim3(BlockSize),
0,
0,
static_cast<T*>(in_nhwc_device_buf.GetDeviceBuffer()),
static_cast<T*>(wei_kyxc_device_buf.GetDeviceBuffer()),
static_cast<T*>(out_nhwk_device_buf.GetDeviceBuffer()),
fwd(gemm_id));
});
});
}
timer.End();
float ave_time = timer.GetElapsedTime() / nrepeat;
float perf = (float)calculate_convolution_flops(InDesc{}, WeiDesc{}, OutDesc{}) /
(std::size_t(1000) * 1000 * 1000) / ave_time;
std::cout << "Average time : " << ave_time << " ms, " << perf << " TFlop/s" << std::endl;
}
in_nhwc_device_buf.FromDevice(in_nhwc.mData.data());
auto f_nhwc2nchw = [&](auto n, auto c, auto hi, auto wi) {
in_nchw(n, c, hi, wi) = in_nhwc(n, hi, wi, c);
};
make_ParallelTensorFunctor(f_nhwc2nchw, N, C, Hi, Wi)(std::thread::hardware_concurrency());
}
} // namespace launcher
driver/include/device_convolution_forward_implicit_gemm_v4r1_nchw_kcyx_nkhw.hpp deleted 100644 → 0
View file @ b8b2d0a6
#pragma once
#include <unistd.h>
#include "device.hpp"
#include "host_tensor.hpp"
#include "gridwise_operation_wrapper.hpp"
#include "gridwise_convolution_forward_implicit_gemm_v4r1_nchw_kcyx_nkhw_lds_double_buffer.hpp"
template <typename T,
typename InDesc,
typename WeiDesc,
typename OutDesc,
typename ConvStrides,
typename ConvDilations,
typename LeftPads,
typename RightPads>
void device_convolution_forward_implicit_gemm_v4r1_nchw_kcyx_nkhw(InDesc,
const Tensor<T>& in_nchw,
WeiDesc,
const Tensor<T>& wei_kcyx,
OutDesc,
Tensor<T>& out_nkhw,
ConvStrides,
ConvDilations,
LeftPads,
RightPads,
ck::index_t nrepeat)
{
std::cout << "device_convolution_forward_implicit_gemm_v4r1_nchw_kcyx_nkhw" << std::endl;
using namespace ck;
using TDevice = typename conditional<is_same<half_float::half, T>::value, half_t, T>::type;
constexpr auto I0 = Number<0>{};
constexpr auto I1 = Number<1>{};
constexpr auto I2 = Number<2>{};
constexpr auto I3 = Number<3>{};
constexpr auto in_nchw_desc =
make_native_tensor_descriptor(InDesc::GetLengths(), InDesc::GetStrides());
constexpr auto wei_kcyx_desc =
make_native_tensor_descriptor(WeiDesc::GetLengths(), WeiDesc::GetStrides());
constexpr auto out_nkhw_desc =
make_native_tensor_descriptor(OutDesc::GetLengths(), OutDesc::GetStrides());
constexpr index_t N = out_nkhw_desc.GetLength(I0);
constexpr index_t K = out_nkhw_desc.GetLength(I1);
constexpr index_t Ho = out_nkhw_desc.GetLength(I2);
constexpr index_t Wo = out_nkhw_desc.GetLength(I3);
std::size_t data_sz = sizeof(T);
DeviceMem in_nchw_device_buf(data_sz * in_nchw.mDesc.GetElementSpace());
DeviceMem wei_kcyx_device_buf(data_sz * wei_kcyx.mDesc.GetElementSpace());
DeviceMem out_nkhw_device_buf(data_sz * out_nkhw.mDesc.GetElementSpace());
in_nchw_device_buf.ToDevice(in_nchw.mData.data());
wei_kcyx_device_buf.ToDevice(wei_kcyx.mData.data());
out_nkhw_device_buf.ToDevice(out_nkhw.mData.data());
#if 0
// cdata = 64, BlockSize = 256, 64x256x8
constexpr index_t BlockSize = 256;
constexpr index_t KPerBlock = 64;
constexpr index_t BPerBlock = 32;
constexpr index_t EPerBlock = 8;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 16;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<8, 1, 32, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<2, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<4, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 2;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 256, 128x128x4
constexpr index_t BlockSize = 256;
constexpr index_t KPerBlock = 128;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 4;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 1, 1, 2>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<4, 2, 16, 2>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 2;
using WeiBlockCopySubLengths_E_K = Sequence<2, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 128>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 2;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x8
constexpr index_t BlockSize = 256;
constexpr index_t KPerBlock = 128;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 8;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 1, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<8, 2, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 128>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x16
constexpr index_t BlockSize = 256;
constexpr index_t KPerBlock = 128;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 16;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<16, 1, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 2>;
using WeiBlockCopyClusterLengths_E_K = Sequence<4, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 2;
#elif 0
// cdata = 4, BlockSize = 256, 128x128x16
// for 1x1
constexpr index_t BlockSize = 256;
constexpr index_t KPerBlock = 128;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 16;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<4, 1, 1, 2>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<4, 2, 16, 2>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 2;
using WeiBlockCopySubLengths_E_K = Sequence<4, 2>;
using WeiBlockCopyClusterLengths_E_K = Sequence<4, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 2;
#elif 0
// cdata = 64, BlockSize = 128, 64x128x4
constexpr index_t BlockSize = 128;
constexpr index_t KPerBlock = 64;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 4;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 1, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<4, 2, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<2, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 2;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 128, 64x128x8
constexpr index_t BlockSize = 128;
constexpr index_t KPerBlock = 64;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 8;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<8, 1, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 128, 64x128x16
constexpr index_t BlockSize = 128;
constexpr index_t KPerBlock = 64;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 16;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<2, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<8, 1, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 2>;
using WeiBlockCopyClusterLengths_E_K = Sequence<4, 32>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 2;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x4
constexpr index_t BlockSize = 128;
constexpr index_t KPerBlock = 128;
constexpr index_t BPerBlock = 8;
constexpr index_t EPerBlock = 4;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 1, 1, 2>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<4, 2, 8, 2>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 2;
using WeiBlockCopySubLengths_E_K = Sequence<2, 2>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 2;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 2;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x8
constexpr index_t BlockSize = 128;
constexpr index_t KPerBlock = 128;
constexpr index_t BPerBlock = 8;
constexpr index_t EPerBlock = 8;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 1, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<8, 2, 8, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 2>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 2;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x16
constexpr index_t BlockSize = 128;
constexpr index_t KPerBlock = 128;
constexpr index_t BPerBlock = 8;
constexpr index_t EPerBlock = 16;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<16, 1, 8, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 4>;
using WeiBlockCopyClusterLengths_E_K = Sequence<4, 32>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 4;
#elif 0
// cdata = 64, BlockSize = 64, 64x64x8
constexpr index_t BlockSize = 64;
constexpr index_t KPerBlock = 64;
constexpr index_t BPerBlock = 8;
constexpr index_t EPerBlock = 8;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 2;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<8, 1, 8, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 2>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 32>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 32, 32x64x3
constexpr index_t BlockSize = 32;
constexpr index_t KPerBlock = 32;
constexpr index_t BPerBlock = 8;
constexpr index_t EPerBlock = 3;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 1;
constexpr index_t GemmNLevel1Cluster = 2;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<3, 1, 1, 2>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<1, 2, 8, 2>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 2;
using WeiBlockCopySubLengths_E_K = Sequence<3, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<1, 32>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 1;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 64, 32x128x3
constexpr index_t BlockSize = 64;
constexpr index_t KPerBlock = 32;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 3;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 1;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<3, 1, 1, 2>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<1, 2, 16, 2>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 2;
using WeiBlockCopySubLengths_E_K = Sequence<3, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<1, 32>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 1;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 64, 64x64x3
constexpr index_t BlockSize = 64;
constexpr index_t KPerBlock = 64;
constexpr index_t BPerBlock = 8;
constexpr index_t EPerBlock = 3;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<3, 1, 1, 1>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<1, 2, 8, 4>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 1;
using WeiBlockCopySubLengths_E_K = Sequence<3, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<1, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 1;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 64, 32x128x4
constexpr index_t BlockSize = 64;
constexpr index_t KPerBlock = 32;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 4;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<4, 1, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<2, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 32>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 2;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 64, BlockSize = 64, 32x128x8
constexpr index_t BlockSize = 64;
constexpr index_t KPerBlock = 32;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 8;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 1;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 4;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<2, 2, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<4, 1, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<4, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<2, 32>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 4;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#elif 0
// cdata = 32, BlockSize = 256, 64x128x8
constexpr index_t BlockSize = 256;
constexpr index_t KPerBlock = 64;
constexpr index_t BPerBlock = 16;
constexpr index_t EPerBlock = 8;
constexpr index_t GemmNRepeat = 2;
constexpr index_t GemmMPerThread = 2;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t GemmDataPerReadA = 2;
constexpr index_t GemmDataPerReadB = 4;
using InBlockCopySubLengths_E_N1_B_N2 = Sequence<1, 1, 1, 4>;
using InBlockCopyClusterLengths_E_N1_B_N2 = Sequence<8, 2, 16, 1>;
using InBlockCopyThreadClusterArrangeOrder = Sequence<0, 1, 3, 2>; // [E, N1, N2, B]
using InBlockCopySrcAccessOrder = Sequence<0, 2, 1, 3>; // [E, B, N1, N2]
using InBlockCopyDstAccessOrder = Sequence<0, 1, 2, 3>; // [E, N1, B, N2]
constexpr index_t InBlockCopySrcDataPerRead_B = 1;
constexpr index_t InBlockCopyDstDataPerWrite_N2 = 4;
using WeiBlockCopySubLengths_E_K = Sequence<2, 1>;
using WeiBlockCopyClusterLengths_E_K = Sequence<4, 64>;
using WeiBlockCopyThreadClusterArrangeOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopySrcAccessOrder = Sequence<1, 0>; // [K, E]
using WeiBlockCopyDstAccessOrder = Sequence<0, 1>; // [E, K]
constexpr index_t WeiBlockCopySrcDataPerRead_E = 2;
constexpr index_t WeiBlockCopyDstDataPerWrite_K = 1;
#endif
constexpr index_t N1 = GemmNRepeat;
constexpr index_t N2 = GemmNPerThread;
constexpr index_t B = (N * Ho * Wo) / (N1 * N2);
constexpr index_t GridSize =
((B + BPerBlock - 1) / BPerBlock) * ((K + KPerBlock - 1) / KPerBlock);
printf("%s: BlockSize %u, GridSize %u \n", __func__, BlockSize, GridSize);
using gridwise_conv =
GridwiseConvolutionForwardImplicitGemm_v4r1_nchw_kcyx_nkhw_lds_double_buffer<
GridSize,
BlockSize,
T,
T,
decltype(in_nchw_desc),
decltype(wei_kcyx_desc),
decltype(out_nkhw_desc),
ConvStrides,
ConvDilations,
LeftPads,
RightPads,
BPerBlock,
KPerBlock,
EPerBlock,
GemmNRepeat,
GemmMPerThread,
GemmNPerThread,
GemmKPerThread,
GemmMLevel0Cluster,
GemmNLevel0Cluster,
GemmMLevel1Cluster,
GemmNLevel1Cluster,
GemmDataPerReadA,
GemmDataPerReadB,
InBlockCopySubLengths_E_N1_B_N2,
InBlockCopyClusterLengths_E_N1_B_N2,
InBlockCopyThreadClusterArrangeOrder,
InBlockCopySrcAccessOrder,
InBlockCopyDstAccessOrder,
InBlockCopySrcDataPerRead_B,
InBlockCopyDstDataPerWrite_N2,
WeiBlockCopySubLengths_E_K,
WeiBlockCopyClusterLengths_E_K,
WeiBlockCopyThreadClusterArrangeOrder,
WeiBlockCopySrcAccessOrder,
WeiBlockCopyDstAccessOrder,
WeiBlockCopySrcDataPerRead_E,
WeiBlockCopyDstDataPerWrite_K>;
for(index_t i = 0; i < 5; ++i)
{
std::cout << "Start running " << nrepeat << " times..." << std::endl;
KernelTimer timer;
timer.Start();
for(index_t j = 0; j < nrepeat; ++j)
{
launch_kernel(run_gridwise_operation<gridwise_conv,
const TDevice* const __restrict__,
const TDevice* const __restrict__,
TDevice* const __restrict__>,
dim3(GridSize),
dim3(BlockSize),
0,
0,
static_cast<TDevice*>(in_nchw_device_buf.GetDeviceBuffer()),
static_cast<TDevice*>(wei_kcyx_device_buf.GetDeviceBuffer()),
static_cast<TDevice*>(out_nkhw_device_buf.GetDeviceBuffer()));
}
timer.End();
float ave_time = timer.GetElapsedTime() / nrepeat;
float perf = (float)calculate_convolution_flops(InDesc{}, WeiDesc{}, OutDesc{}) /
(std::size_t(1000) * 1000 * 1000) / ave_time;
std::cout << "Average time : " << ave_time << " ms, " << perf << " TFlop/s" << std::endl;
}
out_nkhw_device_buf.FromDevice(out_nkhw.mData.data());
}
driver/include/device_convolution_forward_implicit_gemm_v4r4_nchw_kcyx_nkhw.hpp deleted 100644 → 0
View file @ b8b2d0a6
#include <unistd.h>
#include "device.hpp"
#include "host_tensor.hpp"
#include "gridwise_operation_wrapper.hpp"
#include "gridwise_convolution_forward_implicit_gemm_v4r4_nchw_kcyx_nkhw.hpp"
template <class T,
class InDesc,
class WeiDesc,
class OutDesc,
class ConvStrides,
class ConvDilations,
class InLeftPads,
class InRightPads>
void device_convolution_forward_implicit_gemm_v4r4_nchw_kcyx_nkhw(InDesc,
const Tensor<T>& in_nchw,
WeiDesc,
const Tensor<T>& wei_kcyx,
OutDesc,
Tensor<T>& out_nkhw,
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
ck::index_t nrepeat)
{
std::cout << "device_convolution_forward_implicit_gemm_v4r4_nchw_kcyx_nkhw" << std::endl;
using namespace ck;
using TDevice = typename conditional<is_same<half_float::half, T>::value, half_t, T>::type;
constexpr auto I0 = Number<0>{};
constexpr auto I1 = Number<1>{};
constexpr auto I2 = Number<2>{};
constexpr auto I3 = Number<3>{};
constexpr auto in_nchw_desc =
make_native_tensor_descriptor(InDesc::GetLengths(), InDesc::GetStrides());
constexpr auto wei_kcyx_desc =
make_native_tensor_descriptor(WeiDesc::GetLengths(), WeiDesc::GetStrides());
constexpr auto out_nkhw_desc =
make_native_tensor_descriptor(OutDesc::GetLengths(), OutDesc::GetStrides());
constexpr index_t N = out_nkhw_desc.GetLength(I0);
constexpr index_t K = out_nkhw_desc.GetLength(I1);
constexpr index_t Ho = out_nkhw_desc.GetLength(I2);
constexpr index_t Wo = out_nkhw_desc.GetLength(I3);
std::size_t data_sz = sizeof(T);
DeviceMem in_nchw_device_buf(data_sz * in_nchw.mDesc.GetElementSpace());
DeviceMem wei_kcyx_device_buf(data_sz * wei_kcyx.mDesc.GetElementSpace());
DeviceMem out_nkhw_device_buf(data_sz * out_nkhw.mDesc.GetElementSpace());
in_nchw_device_buf.ToDevice(in_nchw.mData.data());
wei_kcyx_device_buf.ToDevice(wei_kcyx.mData.data());
out_nkhw_device_buf.ToDevice(out_nkhw.mData.data());
#if 0
// cdata = 16, BlockSize = 64, 16x64x4
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 16;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 2;
constexpr index_t GemmNPerThread = 2;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 2;
constexpr index_t ThreadGemmDataPerReadN = 2;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 16>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 2;
#elif 0
// cdata = 16, BlockSize = 64, 16x64x4
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 2
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 16;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 2;
constexpr index_t GemmNPerThread = 2;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 2;
constexpr index_t ThreadGemmDataPerReadN = 2;
using GemmABlockTransferThreadSliceLengths_GemmK_GemmM = Sequence<1, 1>;
using GemmABlockTransferThreadClusterLengths_GemmK_GemmM = Sequence<4, 16>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK = 1;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmM = 1;
using GemmBBlockTransferThreadSliceLengths_GemmK_GemmN = Sequence<1, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK_GemmN = Sequence<4, 16>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmN = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmN = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector_GemmN1 = 2;
#elif 0
// cdata = 32, BlockSize = 64, 16x128x4
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 4
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 16;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 2;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 2;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockTransferThreadSliceLengths_GemmK_GemmM = Sequence<1, 1>;
using GemmABlockTransferThreadClusterLengths_GemmK_GemmM = Sequence<4, 16>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK = 1;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmM = 1;
using GemmBBlockTransferThreadSliceLengths_GemmK_GemmN = Sequence<2, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK_GemmN = Sequence<2, 32>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmN = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmN = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector_GemmN1 = 4;
#elif 0
// cdata = 64, BlockSize = 256, 64x256x8
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 256;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 16;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<2, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 2;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<8, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 256>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 256, 128x128x2
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<1, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 256, 128x128x4
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<2, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 2;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x8
// b threadwise copy 4x1
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 256, 128x128x8
// b threadwise copy 2x2
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<4, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 256, 128x128x8
// vector 4
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 8;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<1, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<8, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 0
// cdata = 64, BlockSize = 256, 128x128x16
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 2>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<4, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 256, 128x128x8
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 4
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<1, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<8, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x16
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 4
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 2>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<8, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 1
// cdata = 64, BlockSize = 256, 128x128x16
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 4
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 8>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<16, 16>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<8, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x4
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<1, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x4
// GemmBBlockCopySrcDataPerRead_GemmN = 2
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 2
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<1, 128>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<1, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<4, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 2;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 2;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 2;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x8
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 2>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 2;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x8
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 4
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 2>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 2;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<1, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<8, 16>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 0
// cdata = 64, BlockSize = 128, 128x64x16
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 4>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 4;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<8, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<2, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 128, 64x128x4
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<2, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 2;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// BlockSize = 128, 64x128x4
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 4
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<2, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 2;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<1, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<4, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 0
// cdata = 64, BlockSize = 128, 64x128x8
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<8, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// BlockSize = 128, 64x128x8
// GemmBBlockCopySrcDataPerRead_GemmN = 4
// GemmCThreadCopyDstDataPerWrite_GemmN1 = 4
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 4>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<4, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 4;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 4;
#elif 0
// BlockSize = 128, 64x128x16
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<8, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<16, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 64, 64x64x4
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 2;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<1, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 64, 64x64x8
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 2;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 2>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 2;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<8, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 64, 32x128x2
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 32;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 2;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<2, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 64, 32x128x4
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 32;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<2, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 2;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 32, 32x64x3
constexpr index_t BlockSize = 32;
constexpr index_t GemmMPerBlock = 32;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 3;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<3, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<1, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<3, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 32>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 2;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 64, 32x128x3
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 32;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 3;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<3, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<1, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<3, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 2;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 64, 64x64x3
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 64;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 3;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 4;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<3, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<1, 64>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<3, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 64, BlockSize = 64, 32x128x8
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 32;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 4;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 4;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<2, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<8, 2>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 1
// cdata = 32, BlockSize = 128, 32x128x8
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 32;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 8;
constexpr index_t GemmMPerThread = 2;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 2;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<2, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 2;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<8, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#elif 0
// cdata = 32, BlockSize = 128, 32x128x16
constexpr index_t BlockSize = 128;
constexpr index_t GemmMPerBlock = 32;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 16;
constexpr index_t GemmMPerThread = 2;
constexpr index_t GemmNPerThread = 4;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 4;
constexpr index_t GemmNLevel0Cluster = 4;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 4;
constexpr index_t ThreadGemmDataPerReadM = 2;
constexpr index_t ThreadGemmDataPerReadN = 4;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<4, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 32>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<16, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 128>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmN = 1;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmN1 = 1;
#endif
constexpr index_t GemmM = K;
constexpr index_t GemmN = N * Ho * Wo;
constexpr index_t GridSize = math::integer_divide_ceil(GemmM, GemmMPerBlock) *
math::integer_divide_ceil(GemmN, GemmNPerBlock);
printf("%s: BlockSize %u, GridSize %u \n", __func__, BlockSize, GridSize);
using gridwise_conv = GridwiseConvolutionForwardImplicitGemm_v4r4_nchw_kcyx_nkhw<
GridSize,
BlockSize,
TDevice,
TDevice,
decltype(in_nchw_desc),
decltype(wei_kcyx_desc),
decltype(out_nkhw_desc),
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
GemmMPerBlock,
GemmNPerBlock,
GemmKPerBlock,
GemmMPerThread,
GemmNPerThread,
GemmKPerThread,
GemmMLevel0Cluster,
GemmNLevel0Cluster,
GemmMLevel1Cluster,
GemmNLevel1Cluster,
ThreadGemmDataPerReadM,
ThreadGemmDataPerReadN,
GemmABlockCopyThreadSliceLengths_GemmK_GemmM,
GemmABlockCopyThreadClusterLengths_GemmK_GemmM,
GemmABlockCopySrcDataPerRead_GemmK,
GemmABlockCopyDstDataPerWrite_GemmM,
GemmBBlockCopyThreadSliceLengths_GemmK_GemmN,
GemmBBlockCopyThreadClusterLengths_GemmK_GemmN,
GemmBBlockCopySrcDataPerRead_GemmN,
GemmBBlockCopyDstDataPerWrite_GemmN,
GemmCThreadCopyDstDataPerWrite_GemmN1>;
for(index_t i = 0; i < 5; ++i)
{
std::cout << "Start running " << nrepeat << " times..." << std::endl;
KernelTimer timer;
timer.Start();
for(index_t j = 0; j < nrepeat; ++j)
{
launch_kernel(run_gridwise_operation<gridwise_conv,
const TDevice* const __restrict__,
const TDevice* const __restrict__,
TDevice* const __restrict__>,
dim3(GridSize),
dim3(BlockSize),
0,
0,
static_cast<TDevice*>(in_nchw_device_buf.GetDeviceBuffer()),
static_cast<TDevice*>(wei_kcyx_device_buf.GetDeviceBuffer()),
static_cast<TDevice*>(out_nkhw_device_buf.GetDeviceBuffer()));
}
timer.End();
float ave_time = timer.GetElapsedTime() / nrepeat;
float perf = (float)calculate_convolution_flops(InDesc{}, WeiDesc{}, OutDesc{}) /
(std::size_t(1000) * 1000 * 1000) / ave_time;
std::cout << "Average time : " << ave_time << " ms, " << perf << " TFlop/s" << std::endl;
}
out_nkhw_device_buf.FromDevice(out_nkhw.mData.data());
}
driver/include/device_convolution_forward_implicit_gemm_v4r4_nhwc_kyxc_nhwk.hpp deleted 100644 → 0
View file @ b8b2d0a6
#include <unistd.h>
#include "device.hpp"
#include "host_tensor.hpp"
#include "gridwise_operation_wrapper.hpp"
#include "gridwise_convolution_forward_implicit_gemm_v4r4_nhwc_kyxc_nhwk.hpp"
template <class T,
class InDesc,
class WeiDesc,
class OutDesc,
class ConvStrides,
class ConvDilations,
class InLeftPads,
class InRightPads>
void device_convolution_forward_implicit_gemm_v4r4_nhwc_kyxc_nhwk(InDesc,
const Tensor<T>& in_nchw,
WeiDesc,
const Tensor<T>& wei_kcyx,
OutDesc,
Tensor<T>& out_nkhw,
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
ck::index_t nrepeat)
{
std::cout << "device_convolution_forward_implicit_gemm_v4r4_nhwc_kyxc_nhwk" << std::endl;
using namespace ck;
using TDevice = typename conditional<is_same<half_float::half, T>::value, half_t, T>::type;
constexpr auto I0 = Number<0>{};
constexpr auto I1 = Number<1>{};
constexpr auto I2 = Number<2>{};
constexpr auto I3 = Number<3>{};
constexpr auto N = OutDesc::GetLengths()[I0];
constexpr auto K = OutDesc::GetLengths()[I1];
constexpr auto C = WeiDesc::GetLengths()[I1];
constexpr auto Hi = InDesc::GetLengths()[I2];
constexpr auto Wi = InDesc::GetLengths()[I3];
constexpr auto Ho = OutDesc::GetLengths()[I2];
constexpr auto Wo = OutDesc::GetLengths()[I3];
constexpr auto Y = WeiDesc::GetLengths()[I2];
constexpr auto X = WeiDesc::GetLengths()[I3];
// compile-time variables
constexpr auto in_n_hi_wi_c_desc =
make_native_tensor_descriptor_packed(Sequence<N, Hi, Wi, C>{});
constexpr auto wei_k_y_x_c_desc = make_native_tensor_descriptor_packed(Sequence<K, Y, X, C>{});
constexpr auto out_n_ho_wo_k_desc =
make_native_tensor_descriptor_packed(Sequence<N, Ho, Wo, K>{});
Tensor<float> in_nhwc(
make_HostTensorDescriptor(make_native_tensor_descriptor_packed(Sequence<N, Hi, Wi, C>{})));
Tensor<float> wei_kyxc(
make_HostTensorDescriptor(make_native_tensor_descriptor_packed(Sequence<K, Y, X, C>{})));
Tensor<float> out_nhwk(
make_HostTensorDescriptor(make_native_tensor_descriptor_packed(Sequence<N, Ho, Wo, K>{})));
auto f_nchw2nhwc = [&](auto n, auto hi, auto wi, auto c) {
in_nhwc(n, hi, wi, c) = in_nchw(n, c, hi, wi);
};
auto f_kcyx2kyxc = [&](auto k, auto y, auto x, auto c) {
wei_kyxc(k, y, x, c) = wei_kcyx(k, c, y, x);
};
auto f_nkhw2nhwk = [&](auto n, auto ho, auto wo, auto k) {
out_nhwk(n, ho, wo, k) = out_nkhw(n, k, ho, wo);
};
make_ParallelTensorFunctor(f_nchw2nhwc, N, Hi, Wi, C)(std::thread::hardware_concurrency());
make_ParallelTensorFunctor(f_kcyx2kyxc, K, Y, X, C)(std::thread::hardware_concurrency());
make_ParallelTensorFunctor(f_nkhw2nhwk, N, Ho, Wo, K)(std::thread::hardware_concurrency());
std::size_t data_sz = sizeof(T);
DeviceMem in_nhwc_device_buf(data_sz * in_nhwc.mDesc.GetElementSpace());
DeviceMem wei_kyxc_device_buf(data_sz * wei_kyxc.mDesc.GetElementSpace());
DeviceMem out_nhwk_device_buf(data_sz * out_nhwk.mDesc.GetElementSpace());
in_nhwc_device_buf.ToDevice(in_nhwc.mData.data());
wei_kyxc_device_buf.ToDevice(wei_kyxc.mData.data());
out_nhwk_device_buf.ToDevice(out_nhwk.mData.data());
#if 1
// cdata = 16, BlockSize = 64, 16x64x4
constexpr index_t BlockSize = 64;
constexpr index_t GemmMPerBlock = 16;
constexpr index_t GemmNPerBlock = 64;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerThread = 2;
constexpr index_t GemmNPerThread = 2;
constexpr index_t GemmKPerThread = 1;
constexpr index_t GemmMLevel0Cluster = 2;
constexpr index_t GemmNLevel0Cluster = 2;
constexpr index_t GemmMLevel1Cluster = 2;
constexpr index_t GemmNLevel1Cluster = 8;
constexpr index_t ThreadGemmDataPerReadM = 2;
constexpr index_t ThreadGemmDataPerReadN = 2;
using GemmABlockCopyThreadSliceLengths_GemmK_GemmM = Sequence<1, 1>;
using GemmABlockCopyThreadClusterLengths_GemmK_GemmM = Sequence<4, 16>;
constexpr index_t GemmABlockCopySrcDataPerRead_GemmK = 1;
constexpr index_t GemmABlockCopyDstDataPerWrite_GemmM = 1;
using GemmBBlockCopyThreadSliceLengths_GemmK_GemmN = Sequence<4, 1>;
using GemmBBlockCopyThreadClusterLengths_GemmK_GemmN = Sequence<1, 64>;
constexpr index_t GemmBBlockCopySrcDataPerRead_GemmK = 4;
constexpr index_t GemmBBlockCopyDstDataPerWrite_GemmN = 1;
constexpr index_t GemmCThreadCopyDstDataPerWrite_GemmM1 = 2;
#endif
constexpr index_t GemmM = K;
constexpr index_t GemmN = N * Ho * Wo;
constexpr index_t GridSize = math::integer_divide_ceil(GemmM, GemmMPerBlock) *
math::integer_divide_ceil(GemmN, GemmNPerBlock);
printf("%s: BlockSize %u, GridSize %u \n", __func__, BlockSize, GridSize);
using gridwise_conv = GridwiseConvolutionForwardImplicitGemm_v4r4_nhwc_kyxc_nhwk<
GridSize,
BlockSize,
TDevice,
TDevice,
decltype(in_n_hi_wi_c_desc),
decltype(wei_k_y_x_c_desc),
decltype(out_n_ho_wo_k_desc),
ConvStrides,
ConvDilations,
InLeftPads,
InRightPads,
GemmMPerBlock,
GemmNPerBlock,
GemmKPerBlock,
GemmMPerThread,
GemmNPerThread,
GemmKPerThread,
GemmMLevel0Cluster,
GemmNLevel0Cluster,
GemmMLevel1Cluster,
GemmNLevel1Cluster,
ThreadGemmDataPerReadM,
ThreadGemmDataPerReadN,
GemmABlockCopyThreadSliceLengths_GemmK_GemmM,
GemmABlockCopyThreadClusterLengths_GemmK_GemmM,
GemmABlockCopySrcDataPerRead_GemmK,
GemmABlockCopyDstDataPerWrite_GemmM,
GemmBBlockCopyThreadSliceLengths_GemmK_GemmN,
GemmBBlockCopyThreadClusterLengths_GemmK_GemmN,
GemmBBlockCopySrcDataPerRead_GemmK,
GemmBBlockCopyDstDataPerWrite_GemmN,
GemmCThreadCopyDstDataPerWrite_GemmM1>;
for(index_t i = 0; i < 5; ++i)
{
std::cout << "Start running " << nrepeat << " times..." << std::endl;
KernelTimer timer;
timer.Start();
for(index_t j = 0; j < nrepeat; ++j)
{
launch_kernel(run_gridwise_operation<gridwise_conv,
const TDevice* const __restrict__,
const TDevice* const __restrict__,
TDevice* const __restrict__>,
dim3(GridSize),
dim3(BlockSize),
0,
0,
static_cast<TDevice*>(in_nhwc_device_buf.GetDeviceBuffer()),
static_cast<TDevice*>(wei_kyxc_device_buf.GetDeviceBuffer()),
static_cast<TDevice*>(out_nhwk_device_buf.GetDeviceBuffer()));
}
timer.End();
float ave_time = timer.GetElapsedTime() / nrepeat;
float perf = (float)calculate_convolution_flops(InDesc{}, WeiDesc{}, OutDesc{}) /
(std::size_t(1000) * 1000 * 1000) / ave_time;
std::cout << "Average time : " << ave_time << " ms, " << perf << " TFlop/s" << std::endl;
}
out_nhwk_device_buf.FromDevice(out_nhwk.mData.data());
auto f_nhwk2nkhw = [&](auto n, auto k, auto ho, auto wo) {
out_nkhw(n, k, ho, wo) = out_nhwk(n, ho, wo, k);
};
make_ParallelTensorFunctor(f_nhwk2nkhw, N, K, Ho, Wo)(std::thread::hardware_concurrency());
}
driver/include/device_dynamic_convolution_forward_implicit_gemm_v4r4r2_xdlops_nchw_kcyx_nkhw.hpp
View file @ 81c942cd
...@@ -257,7 +257,6 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r2_xdlops_nchw_kcyx_nk ...@@ -257,7 +257,6 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r2_xdlops_nchw_kcyx_nk
GemmKPerBlock, GemmKPerBlock,
GemmMPerWave, GemmMPerWave,
GemmNPerWave, GemmNPerWave,
GemmK1,
MRepeat, MRepeat,
NRepeat, NRepeat,
GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1, GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1,
......
driver/include/device_dynamic_convolution_forward_implicit_gemm_v4r4r2_xdlops_nhwc_kyxc_nhwk.hpp
View file @ 81c942cd
...@@ -57,7 +57,35 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r2_xdlops_nhwc_kyxc_nh ...@@ -57,7 +57,35 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r2_xdlops_nhwc_kyxc_nh
make_dynamic_naive_tensor_descriptor_packed_v2(out_n_ho_wo_k_lengths); make_dynamic_naive_tensor_descriptor_packed_v2(out_n_ho_wo_k_lengths);
#if 1 #if 1
// [M, N, K0, K1] = [256, 128, 4, 8] // [M, N, K0, K1] = [256, 128, 4, 4] for fp32
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 256;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 64;
constexpr index_t GemmNPerWave = 64;
constexpr index_t GemmK1 = 4;
constexpr index_t MRepeat = 2;
constexpr index_t NRepeat = 1;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 4, 4>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 4;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 4;
#elif 1
// [M, N, K0, K1] = [256, 128, 4, 8] for fp16
constexpr index_t BlockSize = 256; constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 256; constexpr index_t GemmMPerBlock = 256;
......
driver/include/device_dynamic_convolution_forward_implicit_gemm_v4r4r3_xdlops_nhwc_kyxc_nhwk.hpp
View file @ 81c942cd
...@@ -56,48 +56,76 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r3_xdlops_nhwc_kyxc_nh ...@@ -56,48 +56,76 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r3_xdlops_nhwc_kyxc_nh
const auto out_n_ho_wo_k_desc = const auto out_n_ho_wo_k_desc =
make_dynamic_naive_tensor_descriptor_packed_v2(out_n_ho_wo_k_lengths); make_dynamic_naive_tensor_descriptor_packed_v2(out_n_ho_wo_k_lengths);
#if 0 #if 1
// [M, N, K0, K1] = [256, 256, 4, 8] for fp16 // [M, N, K0, K1] = [256, 128, 4, 4] for fp32
constexpr index_t BlockSize = 256; constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 256; constexpr index_t GemmMPerBlock = 256;
constexpr index_t GemmNPerBlock = 256; constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4; constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 32; constexpr index_t GemmMPerWave = 32;
constexpr index_t GemmNPerWave = 32; constexpr index_t GemmNPerWave = 32;
constexpr index_t GemmK1 = 8; constexpr index_t GemmK1 = 4;
constexpr index_t MRepeat = 4; constexpr index_t MRepeat = 4;
constexpr index_t NRepeat = 4; constexpr index_t NRepeat = 2;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 4, 8>; using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 4, 4>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>; using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 8; constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 8; constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 4;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 4, 8>; using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>; using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 8; constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 8; constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 4; constexpr index_t GemmCThreadTransferDstScalarPerVector = 4;
#elif 1 #elif 1
// [M, N, K0, K1] = [256, 128, 4, 8] for fp16 // [M, N, K0, K1] = [128, 128, 4, 4] for fp32
constexpr index_t BlockSize = 256; constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 256; constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128; constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4; constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 32;
constexpr index_t GemmNPerWave = 32;
constexpr index_t GemmK1 = 4;
constexpr index_t MRepeat = 2;
constexpr index_t NRepeat = 2;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 2, 4>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 4;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 4;
#elif 0
// [M, N, K0, K1] = [256, 256, 4, 8] for fp16
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 256;
constexpr index_t GemmNPerBlock = 256;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 32; constexpr index_t GemmMPerWave = 32;
constexpr index_t GemmNPerWave = 32; constexpr index_t GemmNPerWave = 32;
constexpr index_t GemmK1 = 8; constexpr index_t GemmK1 = 8;
constexpr index_t MRepeat = 4; constexpr index_t MRepeat = 4;
constexpr index_t NRepeat = 2; constexpr index_t NRepeat = 4;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 4, 8>; using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 4, 8>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>; using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
...@@ -105,39 +133,39 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r3_xdlops_nhwc_kyxc_nh ...@@ -105,39 +133,39 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r3_xdlops_nhwc_kyxc_nh
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 8; constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 8;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 8; constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 8;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 8>; using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 4, 8>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>; using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 8; constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 8;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 8; constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 8;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 4; constexpr index_t GemmCThreadTransferDstScalarPerVector = 4;
#elif 0 #elif 1
// [M, N, K0, K1] = [128, 128, 4, 4] for fp32 // [M, N, K0, K1] = [256, 128, 4, 8] for fp16
constexpr index_t BlockSize = 256; constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128; constexpr index_t GemmMPerBlock = 256;
constexpr index_t GemmNPerBlock = 128; constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4; constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 32; constexpr index_t GemmMPerWave = 32;
constexpr index_t GemmNPerWave = 32; constexpr index_t GemmNPerWave = 32;
constexpr index_t GemmK1 = 4; constexpr index_t GemmK1 = 8;
constexpr index_t MRepeat = 2; constexpr index_t MRepeat = 4;
constexpr index_t NRepeat = 2; constexpr index_t NRepeat = 2;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 2, 4>; using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 4, 8>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>; using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 4; constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 8;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 4; constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 8;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 4>; using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 8>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>; using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 4; constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 8;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 4; constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 8;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 4; constexpr index_t GemmCThreadTransferDstScalarPerVector = 4;
#endif #endif
......
driver/include/device_dynamic_convolution_forward_implicit_gemm_v4r4r4_xdlops_nhwc_kyxc_nhwk.hpp
View file @ 81c942cd
...@@ -56,7 +56,63 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r4_xdlops_nhwc_kyxc_nh ...@@ -56,7 +56,63 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r4_xdlops_nhwc_kyxc_nh
const auto out_n_ho_wo_k_desc = const auto out_n_ho_wo_k_desc =
make_dynamic_naive_tensor_descriptor_packed_v2(out_n_ho_wo_k_lengths); make_dynamic_naive_tensor_descriptor_packed_v2(out_n_ho_wo_k_lengths);
#if 0 #if 1
// [M, N, K0, K1] = [256, 128, 4, 4] for fp32
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 256;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 32;
constexpr index_t GemmNPerWave = 32;
constexpr index_t GemmK1 = 4;
constexpr index_t MRepeat = 4;
constexpr index_t NRepeat = 2;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 4, 4>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 4;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 1;
#elif 1
// [M, N, K0, K1] = [128, 128, 4, 4] for fp32
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 32;
constexpr index_t GemmNPerWave = 32;
constexpr index_t GemmK1 = 4;
constexpr index_t MRepeat = 2;
constexpr index_t NRepeat = 2;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 2, 4>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 4;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 1;
#elif 1
// [M, N, K0, K1] = [256, 256, 4, 8] for fp16 // [M, N, K0, K1] = [256, 256, 4, 8] for fp16
constexpr index_t BlockSize = 256; constexpr index_t BlockSize = 256;
...@@ -139,34 +195,6 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r4_xdlops_nhwc_kyxc_nh ...@@ -139,34 +195,6 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r4r4_xdlops_nhwc_kyxc_nh
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 8; constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 8;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 8; constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 8;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 1;
#elif 1
// [M, N, K0, K1] = [128, 128, 4, 4] for fp32
constexpr index_t BlockSize = 256;
constexpr index_t GemmMPerBlock = 128;
constexpr index_t GemmNPerBlock = 128;
constexpr index_t GemmKPerBlock = 4;
constexpr index_t GemmMPerWave = 32;
constexpr index_t GemmNPerWave = 32;
constexpr index_t GemmK1 = 4;
constexpr index_t MRepeat = 2;
constexpr index_t NRepeat = 2;
using GemmABlockTransferThreadSliceLengths_GemmK0_GemmM_GemmK1 = Sequence<1, 2, 4>;
using GemmABlockTransferThreadClusterLengths_GemmK0_GemmM_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmABlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmABlockTransferDstScalarPerVector_GemmK1 = 4;
using GemmBBlockTransferThreadSliceLengths_GemmK0_GemmN_GemmK1 = Sequence<1, 2, 4>;
using GemmBBlockTransferThreadClusterLengths_GemmK0_GemmN_GemmK1 = Sequence<4, 64, 1>;
constexpr index_t GemmBBlockTransferSrcScalarPerVector_GemmK1 = 4;
constexpr index_t GemmBBlockTransferDstScalarPerVector_GemmK1 = 4;
constexpr index_t GemmCThreadTransferDstScalarPerVector = 1; constexpr index_t GemmCThreadTransferDstScalarPerVector = 1;
#elif 1 #elif 1
// [M, N, K0, K1] = [128, 128, 4, 8] for fp16 // [M, N, K0, K1] = [128, 128, 4, 8] for fp16
......
driver/include/device_dynamic_convolution_forward_implicit_gemm_v4r5r2_nchw_kcyx_nkhw.hpp
View file @ 81c942cd
...@@ -215,7 +215,7 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r5r2_nchw_kcyx_nkhw( ...@@ -215,7 +215,7 @@ void device_dynamic_convolution_forward_implicit_gemm_v4r5r2_nchw_kcyx_nkhw(
Sequence<4, 3, 2, 0, 1>, // BBlockTransferSrcAccessOrder Sequence<4, 3, 2, 0, 1>, // BBlockTransferSrcAccessOrder
GemmBBlockTransferSrcVectorTensorLengths_GK0_GN0_GN10_GN11_GK1, GemmBBlockTransferSrcVectorTensorLengths_GK0_GN0_GN10_GN11_GK1,
GemmBBlockTransferDstVectorTensorLengths_GK0_GN0_GN10_GN11_GK1, GemmBBlockTransferDstVectorTensorLengths_GK0_GN0_GN10_GN11_GK1,
Sequence<0, 1, 2, 3, 4>, // BBlockTransferSrcVectorTensorContiguousDimOrder Sequence<0, 1, 2, 3, 4>, // BBlockTransferSrcVectorTensorContiguousDimOrder
Sequence<3, 4, 5, 0, 1, 2>, // CThreadTransferSrcDstAccessOrder Sequence<3, 4, 5, 0, 1, 2>, // CThreadTransferSrcDstAccessOrder
5, // CThreadTransferSrcDstVectorDim 5, // CThreadTransferSrcDstVectorDim
GemmCThreadTransferDstScalarPerVector_BN1, GemmCThreadTransferDstScalarPerVector_BN1,
......
driver/include/device_tensor.hpp
View file @ 81c942cd
#pragma once #pragma once
#include "host_tensor.hpp" #include "host_tensor.hpp"
#include "common_header.hpp" #include "common_header.hpp"
#include "tensor_descriptor.hpp"
template <typename TensorDesc, std::size_t... Is>
auto make_HostTensorDescriptor_impl(TensorDesc, std::integer_sequence<std::size_t, Is...>)
{
std::initializer_list<std::size_t> lengths = {TensorDesc::GetLengths()[Is]...};
std::initializer_list<std::size_t> strides = {TensorDesc::GetStrides()[Is]...};
return HostTensorDescriptor(lengths, strides);
}
template <typename TensorDesc>
auto make_HostTensorDescriptor(TensorDesc)
{
return make_HostTensorDescriptor_impl(
TensorDesc{}, std::make_integer_sequence<std::size_t, TensorDesc::GetNumOfDimension()>{});
}
template <typename TensorDesc> template <typename TensorDesc>
void ostream_tensor_descriptor(TensorDesc, std::ostream& os = std::cout) void ostream_tensor_descriptor(TensorDesc, std::ostream& os = std::cout)
......
script/cmake-cuda.sh deleted 100755 → 0
View file @ b8b2d0a6
#!/bin/bash
MY_PROJECT_SOURCE=../../../
export CUDA_ROOT=/usr/local/cuda
export CPATH=$CPATH:$CUDA_ROOT/include
export LIBRARY_PATH=$LIBRARY_PATH:$CUDA_ROOT/lib64
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:$CUDA_ROOT/lib64
cmake \
-D CMAKE_CXX_COMPILER=clang++ \
-D CMAKE_BUILD_TYPE=Release \
-D CMAKE_VERBOSE_MAKEFILE:BOOL=ON \
-D DEVICE_BACKEND=NVIDIA \
-D CMAKE_CUDA_FLAGS="-ccbin clang++ -m64 -Xcompiler -fopenmp -lineinfo --source-in-ptx -keep -Xptxas -v -gencode=arch=compute_61,code=sm_61 -Xptxas -v -maxrregcount=128" \
${MY_PROJECT_SOURCE}
#-D CMAKE_CUDA_FLAGS="-ccbin clang++ -m64 -Xcompiler -fopenmp -lineinfo --source-in-ptx -keep -Xptxas -v -gencode=arch=compute_70,code=sm_70" \
#-D CMAKE_CUDA_FLAGS="-ccbin clang++ -m64 -Xcompiler -fopenmp -lineinfo --source-in-ptx -keep -Xptxas -v -gencode=arch=compute_70,code=sm_70 -Xptxas -v -maxrregcount=128" \
script/extract_asm-cuda.sh deleted 100755 → 0
View file @ b8b2d0a6
DRIVER=$1
ARCH=$2
cuobjdump -xelf $ARCH ./driver/$DRIVER && nvdisasm --print-code -g $DRIVER.$ARCH.cubin > $DRIVER.$ARCH.asm
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