MNN/demo/exec/expressDemo.cpp


#include "Expr.hpp"
#include "ExprCreator.hpp"
#include "Optimizer.hpp"
#include <string>
#include <map>
#include <fstream>
#include <sstream>
#define MNN_OPEN_TIME_TRACE
#include "AutoTime.hpp"
using namespace MNN::Express;
#define UP_DIV(x) (((x)+3)/4)

static std::pair<VARP, VARP> _makeConvolution(int k, int ic, int oc, int size) {
    auto input = _Input({1, ic, size, size}, NC4HW4);
    return std::make_pair(input, _Conv(0.0f, 0.0f, input, {ic, oc}, {k, k}, SAME));
}

static std::pair<VARP, VARP> _makeGEMMByConvolution(int e, int l, int h) {
    auto icC4 = UP_DIV(l);
    auto ocC4 = UP_DIV(h);
    
    auto input = _Input({1, icC4*4, 1, e});
    return std::make_pair(input, _Conv(0.0f, 0.0f, input, {icC4*4, ocC4*4}, {1, 1}));
}
static void _testConvolution() {
    std::vector<std::vector<int>> size = {
        {2, 3, 16, 224},
        {3, 3, 16, 224},
        {5, 3, 16, 224},
        {2, 16, 4, 224},
        {3, 16, 4, 224},
        {5, 16, 4, 224},
        {2, 16, 16, 224},
        {3, 16, 16, 224},
        {5, 16, 16, 224},
        {2, 64, 64, 112},
        {3, 64, 64, 112},
        {5, 64, 64, 112},
        {2, 512, 512, 4},
        {3, 512, 512, 4},
        {5, 512, 512, 4},
        {2, 512, 512, 16},
        {3, 512, 512, 16},
        {5, 512, 512, 16},
        {2, 512, 512, 32},
        {3, 512, 512, 32},
        {5, 512, 512, 32},
    };

    auto conv = _makeGEMMByConvolution(1024, 1024, 1024);
    for (int v=0; v<10; ++v) {
        conv.first->writeMap<float>();
        conv.first->unMap();
        conv.second->readMap<float>();
        conv.second->unMap();
    }
    for (int i=0; i<size.size(); ++i) {
        conv = _makeConvolution(size[i][0], size[i][1], size[i][2], size[i][3]);
        MNN_PRINT("%d, %d, %d, %d: ", size[i][0], size[i][1], size[i][2], size[i][3]);
        AUTOTIME;
        for (int v=0; v<10; ++v) {
            conv.first->writeMap<float>();
            conv.first->unMap();
            conv.second->readMap<float>();
            conv.second->unMap();
        }
    }
}

static void _testGEMM() {
    std::vector<std::vector<int>> size = {
        {64, 64, 64},
        {64, 64, 128},
        {128, 128, 128},
        {128, 128, 256},
        {256, 256, 256},
        {256, 256, 512},
        {512, 512, 512},
        {512, 512, 1024},
        {1024, 1024, 1024},
    };
    for (int i=0; i<size.size(); ++i) {
        auto x = size[i][0];
        auto y = size[i][1];
        auto z = size[i][2];
        auto flops = (float)x * (float)y * (float)z / 1024.0f / 1024.0f;
        FUNC_PRINT_ALL(flops, f);
    }
    
    auto conv = _makeGEMMByConvolution(1024, 1024, 1024);
    for (int v=0; v<10; ++v) {
        conv.first->writeMap<float>();
        conv.first->unMap();
        conv.second->readMap<float>();
        conv.second->unMap();
    }
    for (int i=0; i<size.size(); ++i) {
        conv = _makeGEMMByConvolution(size[i][0], size[i][1], size[i][2]);
        AUTOTIME;
        for (int v=0; v<10; ++v) {
            conv.first->writeMap<float>();
            conv.first->unMap();
            conv.second->readMap<float>();
            conv.second->unMap();
        }
    }
}

int main(int argc, const char* argv[]) {
    if (argc < 2) {
        MNN_ERROR("./expressDemo.out model_path type testTime\n");
        return 0;
    }
    auto modelFileName = argv[1];
    FUNC_PRINT_ALL(modelFileName, s);
    auto device = Optimizer::CPU;
    if (argc >= 3) {
        device = (Optimizer::Device)atoi(argv[2]);
    }
    auto model = Model::load(modelFileName);
    auto optimizer = Optimizer::create(device);
    if (nullptr == optimizer) {
        MNN_ERROR("Can't find optimizer for %d\n", device);
        return 0;
    }
    int testTime = 10;
    if (argc >= 4) {
        testTime = atoi(argv[3]);
    }
    optimizer->onExecute(model);
    model.save("temp.mnn");
    auto input = model.inputs[0];
    auto output = model.outputs[0];
    //input->resize({1, 224, 224, 3});
    auto inputInfo = input->getInfo();
    if (nullptr == inputInfo) {
        return 0;
    }
    {
        AUTOTIME;
        input = _ChangeInputFormat(input, NCHW);
        inputInfo = input->getInfo();
        if (output->getInfo()->order == NC4HW4) {
            output = _Convert(output, NCHW);
        }
        //Init
        bool success = output->expr().first->requireAlloc();
        if (!success) {
            return 0;
        }
    }
    auto outputInfo = output->getInfo();
    if (nullptr == outputInfo) {
        MNN_ERROR("Output Not valid\n");
        return 0;
    }
    auto size = outputInfo->size;
    //Test Speed
    if (testTime > 0){
        //Let the frequence up
        for (int i=0; i<3; ++i) {
            input->writeMap<float>();
            input->unMap();
            output->readMap<float>();
            output->unMap();
        }
        AUTOTIME;
        for (int i=0; i<testTime; ++i) {
            input->writeMap<float>();
            input->unMap();
            output->readMap<float>();
            output->unMap();
        }
    }
    {
        auto size = inputInfo->size;
        auto inputPtr = input->writeMap<float>();
        std::ifstream inputOs("input_0.txt");
        for (int i=0; i<size; ++i) {
            inputOs >> inputPtr[i];
        }
        input->unMap();
    }
    
    {
        auto outputPtr = output->readMap<float>();
        if (nullptr == outputPtr) {
            MNN_ERROR("Output Not valid read error\n");
            return 0;
        }
        std::ofstream outputOs("output.txt");
        for (int i=0; i<size; ++i) {
            outputOs << outputPtr[i] << "\n";
        }
        output->unMap();
    }

    return 0;
}
- 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
			`#include "Expr.hpp"`
			`#include "ExprCreator.hpp"`
			`#include "Optimizer.hpp"`
			`#include <string>`
			`#include <map>`
			`#include <fstream>`
			`#include <sstream>`
			`#define MNN_OPEN_TIME_TRACE`
			`#include "AutoTime.hpp"`
			`using namespace MNN::Express;`
			`#define UP_DIV(x) (((x)+3)/4)`

			`static std::pair<VARP, VARP> _makeConvolution(int k, int ic, int oc, int size) {`
			`auto input = _Input({1, ic, size, size}, NC4HW4);`
			`return std::make_pair(input, _Conv(0.0f, 0.0f, input, {ic, oc}, {k, k}, SAME));`
			`}`

			`static std::pair<VARP, VARP> _makeGEMMByConvolution(int e, int l, int h) {`
			`auto icC4 = UP_DIV(l);`
			`auto ocC4 = UP_DIV(h);`

			`auto input = _Input({1, icC4*4, 1, e});`
			`return std::make_pair(input, _Conv(0.0f, 0.0f, input, {icC44, ocC44}, {1, 1}));`
			`}`
			`static void _testConvolution() {`
			`std::vector<std::vector<int>> size = {`
			`{2, 3, 16, 224},`
			`{3, 3, 16, 224},`
			`{5, 3, 16, 224},`
			`{2, 16, 4, 224},`
			`{3, 16, 4, 224},`
			`{5, 16, 4, 224},`
			`{2, 16, 16, 224},`
			`{3, 16, 16, 224},`
			`{5, 16, 16, 224},`
			`{2, 64, 64, 112},`
			`{3, 64, 64, 112},`
			`{5, 64, 64, 112},`
			`{2, 512, 512, 4},`
			`{3, 512, 512, 4},`
			`{5, 512, 512, 4},`
			`{2, 512, 512, 16},`
			`{3, 512, 512, 16},`
			`{5, 512, 512, 16},`
			`{2, 512, 512, 32},`
			`{3, 512, 512, 32},`
			`{5, 512, 512, 32},`
			`};`

			`auto conv = _makeGEMMByConvolution(1024, 1024, 1024);`
			`for (int v=0; v<10; ++v) {`
			`conv.first->writeMap<float>();`
			`conv.first->unMap();`
			`conv.second->readMap<float>();`
			`conv.second->unMap();`
			`}`
			`for (int i=0; i<size.size(); ++i) {`
			`conv = _makeConvolution(size[i][0], size[i][1], size[i][2], size[i][3]);`
			`MNN_PRINT("%d, %d, %d, %d: ", size[i][0], size[i][1], size[i][2], size[i][3]);`
			`AUTOTIME;`
			`for (int v=0; v<10; ++v) {`
			`conv.first->writeMap<float>();`
			`conv.first->unMap();`
			`conv.second->readMap<float>();`
			`conv.second->unMap();`
			`}`
			`}`
			`}`

			`static void _testGEMM() {`
			`std::vector<std::vector<int>> size = {`
			`{64, 64, 64},`
			`{64, 64, 128},`
			`{128, 128, 128},`
			`{128, 128, 256},`
			`{256, 256, 256},`
			`{256, 256, 512},`
			`{512, 512, 512},`
			`{512, 512, 1024},`
			`{1024, 1024, 1024},`
			`};`
			`for (int i=0; i<size.size(); ++i) {`
			`auto x = size[i][0];`
			`auto y = size[i][1];`
			`auto z = size[i][2];`
			`auto flops = (float)x * (float)y * (float)z / 1024.0f / 1024.0f;`
			`FUNC_PRINT_ALL(flops, f);`
			`}`

			`auto conv = _makeGEMMByConvolution(1024, 1024, 1024);`
			`for (int v=0; v<10; ++v) {`
			`conv.first->writeMap<float>();`
			`conv.first->unMap();`
			`conv.second->readMap<float>();`
			`conv.second->unMap();`
			`}`
			`for (int i=0; i<size.size(); ++i) {`
			`conv = _makeGEMMByConvolution(size[i][0], size[i][1], size[i][2]);`
			`AUTOTIME;`
			`for (int v=0; v<10; ++v) {`
			`conv.first->writeMap<float>();`
			`conv.first->unMap();`
			`conv.second->readMap<float>();`
			`conv.second->unMap();`
			`}`
			`}`
			`}`

			`int main(int argc, const char* argv[]) {`
			`if (argc < 2) {`
			`MNN_ERROR("./expressDemo.out model_path type testTime\n");`
			`return 0;`
			`}`
			`auto modelFileName = argv[1];`
			`FUNC_PRINT_ALL(modelFileName, s);`
			`auto device = Optimizer::CPU;`
			`if (argc >= 3) {`
			`device = (Optimizer::Device)atoi(argv[2]);`
			`}`
			`auto model = Model::load(modelFileName);`
			`auto optimizer = Optimizer::create(device);`
			`if (nullptr == optimizer) {`
			`MNN_ERROR("Can't find optimizer for %d\n", device);`
			`return 0;`
			`}`
			`int testTime = 10;`
			`if (argc >= 4) {`
			`testTime = atoi(argv[3]);`
			`}`
			`optimizer->onExecute(model);`
			`model.save("temp.mnn");`
			`auto input = model.inputs[0];`
			`auto output = model.outputs[0];`
			`//input->resize({1, 224, 224, 3});`
			`auto inputInfo = input->getInfo();`
			`if (nullptr == inputInfo) {`
			`return 0;`
			`}`
			`{`
			`AUTOTIME;`
			`input = _ChangeInputFormat(input, NCHW);`
			`inputInfo = input->getInfo();`
			`if (output->getInfo()->order == NC4HW4) {`
			`output = _Convert(output, NCHW);`
			`}`
			`//Init`
			`bool success = output->expr().first->requireAlloc();`
			`if (!success) {`
			`return 0;`
			`}`
			`}`
			`auto outputInfo = output->getInfo();`
			`if (nullptr == outputInfo) {`
			`MNN_ERROR("Output Not valid\n");`
			`return 0;`
			`}`
			`auto size = outputInfo->size;`
			`//Test Speed`
			`if (testTime > 0){`
			`//Let the frequence up`
			`for (int i=0; i<3; ++i) {`
			`input->writeMap<float>();`
			`input->unMap();`
			`output->readMap<float>();`
			`output->unMap();`
			`}`
			`AUTOTIME;`
			`for (int i=0; i<testTime; ++i) {`
			`input->writeMap<float>();`
			`input->unMap();`
			`output->readMap<float>();`
			`output->unMap();`
			`}`
			`}`
			`{`
			`auto size = inputInfo->size;`
			`auto inputPtr = input->writeMap<float>();`
			`std::ifstream inputOs("input_0.txt");`
			`for (int i=0; i<size; ++i) {`
			`inputOs >> inputPtr[i];`
			`}`
			`input->unMap();`
			`}`

			`{`
			`auto outputPtr = output->readMap<float>();`
			`if (nullptr == outputPtr) {`
			`MNN_ERROR("Output Not valid read error\n");`
			`return 0;`
			`}`
			`std::ofstream outputOs("output.txt");`
			`for (int i=0; i<size; ++i) {`
			`outputOs << outputPtr[i] << "\n";`
			`}`
			`output->unMap();`
			`}`

			`return 0;`
			`}`