2019-04-17 10:49:11 +08:00
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//
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// ConvWinograd.cpp
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// MNN
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//
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// Created by MNN on 2019/01/08.
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// Copyright © 2018, Alibaba Group Holding Limited
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//
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2021-03-12 18:41:50 +08:00
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#include "backend/opencl/execution/image/ConvWinograd.hpp"
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2019-04-17 10:49:11 +08:00
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#include <string.h>
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2019-12-27 22:16:57 +08:00
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#include "core/Backend.hpp"
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2020-03-03 05:47:07 +08:00
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#include "core/ConvolutionCommon.hpp"
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2019-12-27 22:16:57 +08:00
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#include "math/WingoradGenerater.hpp"
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#include "backend/opencl/core/OpenCLRunningUtils.hpp"
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2019-04-17 10:49:11 +08:00
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#define UNIT 2
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#define INTERP 1
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namespace MNN {
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namespace OpenCL {
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bool ConvWinograd::valid(const Convolution2DCommon* common, const Tensor* input, const Tensor* output, int maxWidth, int maxHeight, int limit) {
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2019-04-17 10:49:11 +08:00
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if (common->strideX() != 1 || common->strideY() != 1) {
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return false;
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}
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if (common->dilateX() != 1 || common->dilateY() != 1) {
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return false;
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}
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2023-03-20 11:32:29 +08:00
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if(common->kernelX() != common->kernelY()) {
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2020-11-05 16:41:56 +08:00
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return false;
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}
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2023-03-20 11:32:29 +08:00
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if(common->kernelX() != 3 && common->kernelX() != 5){
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2023-02-28 10:41:24 +08:00
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return false;
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}
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2023-03-20 11:32:29 +08:00
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int ic = input->channel();
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int oc = common->outputCount();
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int ow = output->width();
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int oh =output->height();
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int kh = common->kernelX();
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int wUnit = UP_DIV(ow, UNIT);
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int hUnit = UP_DIV(oh, UNIT);
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int alpha = kh + UNIT - 1;
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int sourceWidth = UP_DIV(ic, 4) * 4 * wUnit;
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2023-02-28 10:41:24 +08:00
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int sourceHeight = alpha * alpha * hUnit;
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int destWidth = alpha * alpha * wUnit * 4;
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2023-03-20 11:32:29 +08:00
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int destHeight = UP_DIV(ic, 4) * hUnit;
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2023-02-28 10:41:24 +08:00
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if(sourceWidth > maxWidth || sourceHeight > maxHeight || destWidth > maxWidth || destHeight > maxHeight){
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return false;
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}
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2023-03-20 11:32:29 +08:00
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if(ic >= 32 && oc >= 32){
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return true;
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}
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return ((oc * oh * ow) / (ic * kh) <= 5);
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2019-04-17 10:49:11 +08:00
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}
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2021-03-12 18:41:50 +08:00
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2019-04-17 10:49:11 +08:00
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ConvWinograd::ConvWinograd(const MNN::Convolution2D* op, Backend* backend) : Execution(backend) {
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mOpenCLBackend = static_cast<OpenCLBackend*>(backend);
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mCommon = op->common();
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2019-05-14 19:54:21 +08:00
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MNN_ASSERT((3 == mCommon->kernelY() && 3 == mCommon->kernelX()) ||
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(5 == mCommon->kernelX() && 5 == mCommon->kernelY()));
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2019-04-17 10:49:11 +08:00
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MNN_ASSERT(1 == mCommon->strideX() && 1 == mCommon->strideY());
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MNN_ASSERT(1 == mCommon->dilateX() && 1 == mCommon->dilateY());
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auto runTime = mOpenCLBackend->getOpenCLRuntime();
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int ky = mCommon->kernelY();
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int kx = mCommon->kernelX();
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int weightSize = 0;
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const float* filterDataPtr = nullptr;
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2020-03-03 05:47:07 +08:00
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std::shared_ptr<MNN::ConvolutionCommon::Int8Common> quanCommon;
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if (nullptr != op->quanParameter()) {
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quanCommon = ConvolutionCommon::load(op->quanParameter(), true);
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if (nullptr == quanCommon) {
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MNN_ERROR("Memory not Enough, can't extract IDST Convolution \n");
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}
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if (quanCommon->weightFloat.get() == nullptr) {
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MNN_PRINT("quanCommon->weightFloat.get() == nullptr \n");
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}
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// Back to float
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filterDataPtr = quanCommon->weightFloat.get();
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weightSize = quanCommon->weightFloat.size();
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}
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if (nullptr == filterDataPtr) {
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weightSize = op->weight()->size();
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filterDataPtr = op->weight()->data();
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}
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int co = mCommon->outputCount();
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int ci = weightSize / co / mCommon->kernelX() / mCommon->kernelY();
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auto coC4 = UP_DIV(co, 4);
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auto ciC4 = UP_DIV(ci, 4);
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auto queue = runTime->commandQueue();
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auto imageChannelType = CL_HALF_FLOAT;
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if (mOpenCLBackend->getPrecision() == BackendConfig::Precision_High) {
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imageChannelType = CL_FLOAT;
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}
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// Create Image
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{
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mBias.reset(new cl::Image2D(runTime->context(), CL_MEM_READ_WRITE, cl::ImageFormat(CL_RGBA, imageChannelType),
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UP_DIV(co, 4), 1, 0, nullptr, nullptr));
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2020-11-05 16:41:56 +08:00
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int buffer_size = ALIGN_UP4(co);
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if(mOpenCLBackend->getOpenCLRuntime()->isWeightCpuTransHalf()) {
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buffer_size *= sizeof(half_float::half);
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} else {
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buffer_size *= sizeof(float);
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}
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std::shared_ptr<cl::Buffer> biasBuffer(
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new cl::Buffer(runTime->context(), CL_MEM_READ_WRITE | CL_MEM_ALLOC_HOST_PTR, buffer_size));
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2019-12-27 22:16:57 +08:00
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2019-08-15 17:30:39 +08:00
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cl_int error;
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2020-11-05 16:41:56 +08:00
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auto biasC = queue.enqueueMapBuffer(*biasBuffer, CL_TRUE, CL_MAP_WRITE, 0, buffer_size, nullptr, nullptr, &error);
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2019-08-15 17:30:39 +08:00
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if(biasC != nullptr && error == CL_SUCCESS){
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if(mOpenCLBackend->getOpenCLRuntime()->isWeightCpuTransHalf()){
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for(int i=0; i<co; i++) {
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((half_float::half*)biasC)[i] = (half_float::half)(op->bias()->data()[i]);
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}
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for(int i=co; i<ALIGN_UP4(co); i++) {
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((half_float::half*)biasC)[i] = (half_float::half)(0.0f);
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}
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}else{
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::memset(biasC, 0, buffer_size);
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::memcpy(biasC, op->bias()->data(), co * sizeof(float));
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}
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2019-07-02 18:01:08 +08:00
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}else{
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MNN_ERROR("Map error biasC == nullptr \n");
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}
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2019-04-17 10:49:11 +08:00
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queue.enqueueUnmapMemObject(*biasBuffer, biasC);
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copyBufferToImage(runTime, *biasBuffer, *mBias, coC4, 1);
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std::shared_ptr<Tensor> sourceWeight(
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2019-05-05 20:27:57 +08:00
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Tensor::create<float>(std::vector<int>{co, ci, ky, kx}, (void*)(filterDataPtr), Tensor::CAFFE));
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2019-04-17 10:49:11 +08:00
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int unit = UNIT;
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int kernelSize = kx;
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Math::WinogradGenerater generator(unit, kernelSize, INTERP);
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int alpha = unit + kernelSize - 1;
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auto weightDest = generator.allocTransformWeight(sourceWeight.get());
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generator.transformWeight(weightDest.get(), sourceWeight.get());
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auto weightDestSize = weightDest->size();
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2020-11-05 16:41:56 +08:00
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buffer_size = weightDest->elementSize();
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if(mOpenCLBackend->getOpenCLRuntime()->isWeightCpuTransHalf()) {
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buffer_size *= sizeof(half_float::half);
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} else {
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buffer_size *= sizeof(float);
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}
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cl::Buffer weightBuffer(runTime->context(), CL_MEM_READ_WRITE | CL_MEM_ALLOC_HOST_PTR, buffer_size);
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{
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cl_int error;
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auto weightPtr = queue.enqueueMapBuffer(weightBuffer, CL_TRUE, CL_MAP_WRITE, 0, buffer_size, nullptr, nullptr, &error);
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2019-08-15 17:30:39 +08:00
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if(weightPtr != nullptr && error == CL_SUCCESS){
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2020-11-05 16:41:56 +08:00
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if(mOpenCLBackend->getOpenCLRuntime()->isWeightCpuTransHalf()){
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for(int i=0; i<weightDest->elementSize(); i++) {
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((half_float::half*)weightPtr)[i] = (half_float::half)(weightDest->host<float>()[i]);
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}
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}else{
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::memcpy(weightPtr, weightDest->host<float>(), buffer_size);
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}
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2019-07-02 18:01:08 +08:00
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} else{
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MNN_ERROR("Map error weightPtr == nullptr \n");
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}
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2019-04-17 10:49:11 +08:00
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queue.enqueueUnmapMemObject(weightBuffer, weightPtr);
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}
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mWeight.reset(new cl::Image2D(runTime->context(), CL_MEM_READ_WRITE, cl::ImageFormat(CL_RGBA, imageChannelType),
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ciC4 * 4, coC4 * alpha * alpha, 0, nullptr, nullptr));
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copyBufferToImage(runTime, weightBuffer, *mWeight, ciC4 * 4, coC4 * alpha * alpha);
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}
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}
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ErrorCode ConvWinograd::onResize(const std::vector<Tensor*>& inputs, const std::vector<Tensor*>& outputs) {
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auto input = inputs[0];
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auto output = outputs[0];
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mKernelX = mCommon->kernelX();
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mKernelY = mCommon->kernelY();
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mStrideX = mCommon->strideX();
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mStrideY = mCommon->strideY();
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mPadMode = mCommon->padMode();
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2020-06-23 14:02:09 +08:00
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2019-04-17 10:49:11 +08:00
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int alpha = mCommon->kernelX() + UNIT - 1;
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auto wUnit = UP_DIV(output->width(), UNIT);
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auto hUnit = UP_DIV(output->height(), UNIT);
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2021-06-23 17:20:53 +08:00
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auto pad = ConvolutionCommon::convolutionPad(inputs[0], outputs[0], mCommon);
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const int padY = pad.second;
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const int padX = pad.first;
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2019-05-14 19:54:21 +08:00
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auto runTime = mOpenCLBackend->getOpenCLRuntime();
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auto bn = backend();
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2019-04-17 10:49:11 +08:00
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mSource.reset(Tensor::createDevice<float>(
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std::vector<int>{alpha * alpha, input->channel(), hUnit, wUnit}, Tensor::CAFFE_C4));
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2019-04-17 10:49:11 +08:00
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mDest.reset(Tensor::createDevice<float>(
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std::vector<int>{UP_DIV(output->channel(), 4), wUnit * 4, hUnit, alpha * alpha}, Tensor::CAFFE_C4));
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2019-05-14 19:54:21 +08:00
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2019-04-17 10:49:11 +08:00
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bn->onAcquireBuffer(mSource.get(), Backend::DYNAMIC);
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bn->onAcquireBuffer(mDest.get(), Backend::DYNAMIC);
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bn->onReleaseBuffer(mSource.get(), Backend::DYNAMIC);
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bn->onReleaseBuffer(mDest.get(), Backend::DYNAMIC);
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2019-05-14 19:54:21 +08:00
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auto icC4 = UP_DIV(input->channel(), 4);
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auto ocC4 = UP_DIV(output->channel(), 4);
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2023-02-28 10:41:24 +08:00
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uint32_t total_num = input->batch();
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2020-06-23 14:02:09 +08:00
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mSourceTransform.resize(total_num);
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mMatMul.resize(total_num);
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mDestTransform.resize(total_num);
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mMaxWGS_S.resize(total_num);
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mMaxWGS_D.resize(total_num);
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mMaxWGS_M.resize(total_num);
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std::set<std::string> basic;
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/*Create Kernel*/
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for(int i = 0; i < input->batch(); i++) {
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2020-06-23 14:02:09 +08:00
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char format[20];
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::memset(format, 0, sizeof(format));
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sprintf(format, "%d_%d_%d", UNIT, mKernelX, INTERP);
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auto formatStr = std::string(format);
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mSourceTransform[i] =
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runTime->buildKernel("winogradTransformSource" + formatStr,
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"winogradTransformSource", basic);
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mMaxWGS_S[i] = static_cast<uint32_t>(mOpenCLBackend->getOpenCLRuntime()->getMaxWorkGroupSize(mSourceTransform[i]));
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{
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std::set<std::string> buildOptions = basic;
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if (mCommon->relu()) {
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buildOptions.emplace("-DRELU");
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}
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if (mCommon->relu6()) {
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buildOptions.emplace("-DRELU6");
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}
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mDestTransform[i] =
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runTime->buildKernel("winogradTransformDest" + formatStr,
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"winogradTransformDest", buildOptions);
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mMaxWGS_D[i] = static_cast<uint32_t>(mOpenCLBackend->getOpenCLRuntime()->getMaxWorkGroupSize(mDestTransform[i]));
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}
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mMatMul[i] = runTime->buildKernel("gemm", "gemmWinograd", basic);
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2020-06-23 14:02:09 +08:00
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mMaxWGS_M[i] = static_cast<uint32_t>(mOpenCLBackend->getOpenCLRuntime()->getMaxWorkGroupSize(mMatMul[i]));
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}
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mGWS_S.resize(total_num);
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mGWS_D.resize(total_num);
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mGWS_M.resize(total_num);
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mLWS_S.resize(total_num);
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mLWS_D.resize(total_num);
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mLWS_M.resize(total_num);
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2019-05-14 19:54:21 +08:00
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2020-06-23 14:02:09 +08:00
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for (int b = 0; b < input->batch(); ++b) {
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2023-02-28 10:41:24 +08:00
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mSourceTransform[b].setArg(0, openCLImage(input));
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mSourceTransform[b].setArg(1, openCLImage(mSource.get()));
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mSourceTransform[b].setArg(2, wUnit);
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mSourceTransform[b].setArg(3, hUnit);
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mSourceTransform[b].setArg(4, padX);
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mSourceTransform[b].setArg(5, padY);
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mSourceTransform[b].setArg(6, input->width());
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mSourceTransform[b].setArg(7, input->height());
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mSourceTransform[b].setArg(8, icC4);
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mSourceTransform[b].setArg(9, b);
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mMatMul[b].setArg(0, openCLImage(mSource.get()));
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mMatMul[b].setArg(1, *mWeight);
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mMatMul[b].setArg(2, openCLImage(mDest.get()));
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mMatMul[b].setArg(3, wUnit);
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mMatMul[b].setArg(4, hUnit);
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mMatMul[b].setArg(5, ocC4);
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mMatMul[b].setArg(6, icC4);
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mMatMul[b].setArg(7, alpha*alpha);
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mDestTransform[b].setArg(0, openCLImage(mDest.get()));
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mDestTransform[b].setArg(1, *mBias);
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mDestTransform[b].setArg(2, openCLImage(output));
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mDestTransform[b].setArg(3, wUnit);
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mDestTransform[b].setArg(4, hUnit);
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mDestTransform[b].setArg(5, output->width());
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mDestTransform[b].setArg(6, output->height());
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mDestTransform[b].setArg(7, ocC4);
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mDestTransform[b].setArg(8, b);
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/*Source Transform*/
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{
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mGWS_S[b] = {static_cast<uint32_t>(wUnit * hUnit), static_cast<uint32_t>(icC4)};
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std::string kernelName = "winogradTransformSource";
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mLWS_S[b] = localWS2DDefault(mGWS_S[b], mMaxWGS_S[b], mOpenCLBackend->getOpenCLRuntime(), kernelName, mSourceTransform[b]).first;
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}
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2020-06-23 14:02:09 +08:00
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2023-02-28 10:41:24 +08:00
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/*MatMul*/
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{
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auto gemmHeight = ocC4;
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mGWS_M[b] = {static_cast<uint32_t>(UP_DIV(wUnit, 4) * hUnit), static_cast<uint32_t>(alpha * alpha * ocC4)};
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std::string kernelName = "gemmWinograd";
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mLWS_M[b] = localWS2DDefault(mGWS_M[b], mMaxWGS_M[b], mOpenCLBackend->getOpenCLRuntime(), kernelName, mMatMul[b]).first;
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}
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2020-06-23 14:02:09 +08:00
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2023-02-28 10:41:24 +08:00
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// Dest Transform
|
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{
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mGWS_D[b] = {static_cast<uint32_t>(wUnit*hUnit), static_cast<uint32_t>(ocC4)};
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std::string kernelName = "winogradTransformDest";
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mLWS_D[b] = localWS2DDefault(mGWS_D[b], mMaxWGS_D[b], mOpenCLBackend->getOpenCLRuntime(), kernelName, mDestTransform[b]).first;
|
2020-06-23 14:02:09 +08:00
|
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}
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|
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}
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2019-04-17 10:49:11 +08:00
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|
return NO_ERROR;
|
|
|
|
|
}
|
- dynamic computation graph (beta)
- add supports (/express)
- add tests
- add benchmarks with it (/benchmark/exprModels)
- Python
- MNN engine and tools were submitted to pip
- available on Windows/macOS/Linux
- Engine/Converter
- add supports for each op benchmarking
- refactor optimizer by separating steps
- CPU
- add supports for Conv3D, Pool3D, ELU, ReverseSequence
- fix ArgMax, Permute, Scale, BinaryOp, Slice, SliceTf
- OpenCL
- add half transform in CPU
- add broadcast supports for binary
- optimize Conv2D, Reshape, Eltwise, Gemm, etc.
- OpenGL
- add sub, real div supports for binary
- add supports for unary
- optimize Conv2D, Reshape
- Vulkan
- add max supports for eltwise
- Metal
- fix metallib missing problem
- Train/Quantization
- use express to refactor training codes
2019-09-26 21:02:07 +08:00
|
|
|
|
2019-04-17 10:49:11 +08:00
|
|
|
ErrorCode ConvWinograd::onExecute(const std::vector<Tensor*>& inputs, const std::vector<Tensor*>& outputs) {
|
|
|
|
|
auto input = inputs[0];
|
|
|
|
|
auto output = outputs[0];
|
|
|
|
|
|
2020-11-05 16:41:56 +08:00
|
|
|
#ifdef ENABLE_OPENCL_TIME_PROFILER
|
|
|
|
|
int costTime = 0;
|
|
|
|
|
#endif
|
2019-06-05 10:45:59 +08:00
|
|
|
for (int b = 0; b < input->batch(); ++b) {
|
2023-02-28 10:41:24 +08:00
|
|
|
/*Source Transform*/
|
|
|
|
|
{
|
|
|
|
|
#ifdef ENABLE_OPENCL_TIME_PROFILER
|
|
|
|
|
cl::Event event;
|
|
|
|
|
runKernel2D(mSourceTransform[b], mGWS_S[b], mLWS_S[b],
|
|
|
|
|
mOpenCLBackend->getOpenCLRuntime(), &event);
|
2020-05-28 19:04:27 +08:00
|
|
|
|
2023-02-28 10:41:24 +08:00
|
|
|
int costTime0 = (int)mOpenCLBackend->getOpenCLRuntime()->getCostTime(&event);
|
|
|
|
|
costTime += costTime0;
|
|
|
|
|
MNN_PRINT("kernel cost:%d us ConvWino0\n",costTime0);
|
|
|
|
|
#else
|
|
|
|
|
runKernel2D(mSourceTransform[b], mGWS_S[b], mLWS_S[b],
|
|
|
|
|
mOpenCLBackend->getOpenCLRuntime());
|
|
|
|
|
#endif
|
|
|
|
|
}
|
2019-06-05 10:45:59 +08:00
|
|
|
|
2023-02-28 10:41:24 +08:00
|
|
|
/*MatMul*/
|
|
|
|
|
{
|
|
|
|
|
#ifdef ENABLE_OPENCL_TIME_PROFILER
|
|
|
|
|
cl::Event event;
|
|
|
|
|
runKernel2D(mMatMul[b], mGWS_M[b], mLWS_M[b],
|
|
|
|
|
mOpenCLBackend->getOpenCLRuntime(), &event);
|
|
|
|
|
|
|
|
|
|
int costTime1 = (int)mOpenCLBackend->getOpenCLRuntime()->getCostTime(&event);
|
|
|
|
|
costTime += costTime1;
|
|
|
|
|
MNN_PRINT("kernel cost:%d us ConvWino1\n",costTime1);
|
|
|
|
|
#else
|
|
|
|
|
runKernel2D(mMatMul[b], mGWS_M[b], mLWS_M[b],
|
|
|
|
|
mOpenCLBackend->getOpenCLRuntime());
|
|
|
|
|
#endif
|
|
|
|
|
}
|
2019-06-05 10:45:59 +08:00
|
|
|
|
2023-02-28 10:41:24 +08:00
|
|
|
// Dest Transform
|
|
|
|
|
{
|
|
|
|
|
#ifdef ENABLE_OPENCL_TIME_PROFILER
|
|
|
|
|
cl::Event event;
|
|
|
|
|
runKernel2D(mDestTransform[b], mGWS_D[b], mLWS_D[b],
|
|
|
|
|
mOpenCLBackend->getOpenCLRuntime(), &event);
|
2020-05-28 19:04:27 +08:00
|
|
|
|
2023-02-28 10:41:24 +08:00
|
|
|
int costTime2 = (int)mOpenCLBackend->getOpenCLRuntime()->getCostTime(&event);
|
|
|
|
|
costTime += costTime2;
|
|
|
|
|
MNN_PRINT("kernel cost:%d us ConvWino2\n",costTime2);
|
|
|
|
|
#else
|
|
|
|
|
runKernel2D(mDestTransform[b], mGWS_D[b], mLWS_D[b],
|
|
|
|
|
mOpenCLBackend->getOpenCLRuntime());
|
|
|
|
|
#endif
|
2019-05-14 19:54:21 +08:00
|
|
|
}
|
2019-04-17 10:49:11 +08:00
|
|
|
}
|
2020-11-05 16:41:56 +08:00
|
|
|
#ifdef ENABLE_OPENCL_TIME_PROFILER
|
|
|
|
|
MNN_PRINT("kernel cost:%d us ConvWino total\n",costTime);
|
|
|
|
|
#endif
|
2019-04-17 10:49:11 +08:00
|
|
|
|
|
|
|
|
return NO_ERROR;
|
|
|
|
|
}
|
|
|
|
|
|
|
|
|
|
} // namespace OpenCL
|
|
|
|
|
} // namespace MNN
|
