199 lines
7.5 KiB
C++
199 lines
7.5 KiB
C++
//
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// VulkanBinary.cpp
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// MNN
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//
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// Created by MNN on 2019/01/31.
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// Copyright © 2018, Alibaba Group Holding Limited
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//
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#include "VulkanBinary.hpp"
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#include "core/Macro.h"
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#include "core/TensorUtils.hpp"
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#include "core/OpCommonUtils.hpp"
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namespace MNN {
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struct ConstBuffer {
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ivec4 stride00;
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ivec4 posLimit;
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int activationType;
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};
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static std::string _getShaderName(const Op* op, bool image) {
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std::string prefix = "glsl_binaryImage_";
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std::string posfix = "_comp";
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std::string mid = "";
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if (op->type() == OpType_Eltwise) {
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if (op->main_as_Eltwise()->coeff() != nullptr) {
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// Don't support
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return "";
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}
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switch (op->main_as_Eltwise()->type()) {
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case EltwiseType_SUB:
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mid = "SUB";
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break;
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case EltwiseType_MAXIMUM:
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mid = "VMAX";
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break;
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case EltwiseType_PROD:
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mid = "MUL";
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break;
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case EltwiseType_SUM:
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mid = "ADD";
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break;
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default:
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break;
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}
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} else if (op->type() == OpType_BinaryOp) {
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switch (op->main_as_BinaryOp()->opType()) {
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case BinaryOpOperation_ADD:
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mid = "ADD";
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break;
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case BinaryOpOperation_SUB:
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mid = "SUB";
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break;
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case BinaryOpOperation_MAXIMUM:
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mid = "VMAX";
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break;
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case BinaryOpOperation_MINIMUM:
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mid = "VMIN";
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break;
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case BinaryOpOperation_MUL:
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mid = "MUL";
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break;
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case BinaryOpOperation_POW:
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mid = "POW";
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break;
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case BinaryOpOperation_SquaredDifference:
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mid = "SQUDIFF";
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break;
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case BinaryOpOperation_DIV:
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case BinaryOpOperation_REALDIV:
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mid = "DIV";
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break;
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default:
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break;
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}
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}
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if (mid.empty()) {
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return mid;
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}
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return prefix + mid + posfix;
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}
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VulkanBinary::VulkanBinary(const std::string& shaderName, Backend* bn, bool image, int number, int activationType) : VulkanBasicExecution(bn) {
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auto vkBn = static_cast<VulkanBackend*>(bn);
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mBinaryPipeline = vkBn->getPipeline(shaderName, {
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VK_DESCRIPTOR_TYPE_STORAGE_IMAGE,
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VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER,
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VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER,
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VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER
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});
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mActivationType = activationType;
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}
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VulkanBinary::~VulkanBinary() {
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}
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ErrorCode VulkanBinary::onEncode(const std::vector<Tensor*>& inputs, const std::vector<Tensor*>& outputs,
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const VulkanCommandPool::Buffer* cmdBuffer) {
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MNN_ASSERT(1 == outputs.size());
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auto input0T = (VulkanTensor*)(inputs[0]->deviceId());
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auto input1T = (VulkanTensor*)(inputs[1]->deviceId());
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auto outputT = (VulkanTensor*)(outputs[0]->deviceId());
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auto vkBn = (VulkanBackend*)backend();
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int number = outputT->imageSize() * ((int)inputs.size() - 1);
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if (mConstBuffer.size() != number) {
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mConstBuffer.resize(number);
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for (int i=0; i<number; ++i) {
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mConstBuffer[i] = std::make_shared<VulkanBuffer>(vkBn->getMemoryPool(), false, sizeof(ConstBuffer), nullptr,
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VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT);
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}
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mDescriptorSet.resize(number);
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for (int i=0; i<number; ++i) {
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mDescriptorSet[i].reset(mBinaryPipeline->createSet());
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}
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}
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auto input0DataCount = TensorUtils::getRawSize(inputs[0]);
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auto input1DataCount = TensorUtils::getRawSize(inputs[1]);
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auto input0Scalar = input0DataCount == 1;
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auto input1Scalar = input1DataCount == 1;
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auto writeBinary = [&](VulkanTensor* input0T, VulkanTensor* input1T, VulkanTensor* outputT, int tensorIndex) {
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auto imageSize = outputT->imageSize();
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for (int index=0; index < imageSize; ++index) {
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auto input0 = input0T->image(index % input0T->imageSize());
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auto input1 = input1T->image(index % input1T->imageSize());
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auto output = outputT->image(index);
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auto total = output->width() * output->height();
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auto constBuffer = mConstBuffer[tensorIndex * imageSize + index];
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auto binaryOpParam = reinterpret_cast<ConstBuffer*>(constBuffer->map());
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::memset(binaryOpParam, 0, sizeof(ConstBuffer));
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binaryOpParam->stride00[3] = total;
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binaryOpParam->stride00[0] = output->width();
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binaryOpParam->stride00[1] = output->height();
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binaryOpParam->stride00[2] = 0;
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binaryOpParam->posLimit[0] = 1;
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binaryOpParam->posLimit[1] = 1;
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binaryOpParam->activationType = mActivationType;
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if (input0Scalar) {
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binaryOpParam->posLimit[0] = 0;
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}
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if (input1Scalar) {
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binaryOpParam->posLimit[1] = 0;
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}
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constBuffer->unmap();
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std::shared_ptr<VulkanLayout::DescriptorSet> desSet = mDescriptorSet[tensorIndex * imageSize + index];
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auto sampler = vkBn->getCommonSampler(true);
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desSet->writeImage(output->view(), sampler->get(),
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VK_IMAGE_LAYOUT_GENERAL, 0);
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input0->barrierRead(cmdBuffer->get());
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input1->barrierRead(cmdBuffer->get());
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output->barrierWrite(cmdBuffer->get());
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desSet->writeImage(input0->view(), sampler->get(),
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VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL, 1);
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desSet->writeImage(input1->view(), sampler->get(),
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VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL, 2);
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desSet->writeBuffer(constBuffer->buffer(), 3, constBuffer->size());
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mBinaryPipeline->bind(cmdBuffer->get(), desSet->get());
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vkCmdDispatch(cmdBuffer->get(), UP_DIV(total, 256), 1, 1);
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}
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};
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writeBinary(input0T, input1T, outputT, 0);
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if (inputs.size() > 2) {
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for (int i=2; i<inputs.size(); ++i) {
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writeBinary(reinterpret_cast<VulkanTensor*>(outputs[0]->deviceId()), reinterpret_cast<VulkanTensor*>(inputs[i]->deviceId()), reinterpret_cast<VulkanTensor*>(outputs[0]->deviceId()), i-1);
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}
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}
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return NO_ERROR;
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}
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class VulkanBinaryCreator : public VulkanBackend::Creator {
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public:
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virtual VulkanBasicExecution* onCreate(const std::vector<Tensor*>& inputs, const std::vector<Tensor*>& outputs, const MNN::Op* op,
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Backend* backend) const override {
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auto input0 = inputs[0];
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if (input0->getType().code != halide_type_float) {
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return nullptr;
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}
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auto image = TensorUtils::getDescribe(input0)->dimensionFormat == MNN_DATA_FORMAT_NC4HW4;
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auto shader = _getShaderName(op, image);
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if (shader.empty()) {
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return nullptr;
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}
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int activationType = 0;
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if(op->type() == OpType_BinaryOp) {
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activationType = op->main_as_BinaryOp()->activationType();
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}
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return new VulkanBinary(shader, backend, image, (int)inputs.size() - 1, activationType);
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}
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};
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static bool gResistor = []() {
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VulkanBackend::addCreator(OpType_BinaryOp, new VulkanBinaryCreator);
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VulkanBackend::addCreator(OpType_Eltwise, new VulkanBinaryCreator);
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return true;
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}();
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} // namespace MNN
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