115 lines
3.3 KiB
C++
115 lines
3.3 KiB
C++
//
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// VulkanTopKV2.cpp
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// MNN
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//
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// Vulkan buffer-mode implementation of TopKV2.
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//
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#include "VulkanTopKV2.hpp"
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#include "core/Macro.h"
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#include "core/TensorUtils.hpp"
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namespace MNN {
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struct TopKV2ConstBuffer {
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int rowSize;
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int k;
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int numRows;
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int pad;
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};
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VulkanTopKV2::VulkanTopKV2(const Op* op, Backend* bn, int k, Tensor* input) : VulkanBasicExecution(bn) {
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MNN_ASSERT(k > 0);
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MNN_ASSERT(input != nullptr);
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auto vkBn = (VulkanBackend*)backend();
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mK = k;
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mLargest = true;
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auto param = op->main_as_TopKV2();
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if (nullptr != param) {
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mLargest = param->largest();
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}
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mConstBuffer = vkBn->allocUniform();
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std::vector<VkDescriptorType> types{
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VK_DESCRIPTOR_TYPE_STORAGE_BUFFER,
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VK_DESCRIPTOR_TYPE_STORAGE_BUFFER,
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VK_DESCRIPTOR_TYPE_STORAGE_BUFFER,
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VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER,
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};
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std::string pKey = "glsl_topkv2_";
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if (mLargest) {
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pKey += "SORT_DESC_";
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}
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if (input->getType().code == halide_type_float && vkBn->useFP16()) {
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pKey += "FP16_";
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}
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pKey += "comp";
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mPipeline = vkBn->getPipeline(pKey, types);
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mDescriptorSet.reset(mPipeline->createSet());
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}
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VulkanTopKV2::~VulkanTopKV2() {
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auto vkBn = (VulkanBackend*)backend();
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vkBn->recycleUniform(mConstBuffer);
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}
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ErrorCode VulkanTopKV2::onEncode(const std::vector<Tensor*>& inputs, const std::vector<Tensor*>& outputs,
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const VulkanCommandPool::Buffer* cmdBuffer) {
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auto input = inputs[0];
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auto outputValue = outputs[0];
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auto outputIndex = outputs[1];
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const int rowSize = input->length(input->dimensions() - 1);
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if (rowSize <= 0) {
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return NO_ERROR;
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}
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const int numRows = input->elementSize() / rowSize;
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const int k = mK;
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auto vkBn = static_cast<VulkanBackend*>(backend());
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// Set GPU params
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auto topkParam = reinterpret_cast<TopKV2ConstBuffer*>(mConstBuffer->map());
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topkParam->rowSize = rowSize;
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topkParam->k = k;
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topkParam->numRows = numRows;
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topkParam->pad = 0;
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mConstBuffer->unmap();
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// Bind buffers
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mDescriptorSet->writeBuffer(vkBn->getBuffer(outputValue), 0);
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mDescriptorSet->writeBuffer(vkBn->getBuffer(outputIndex), 1);
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mDescriptorSet->writeBuffer(vkBn->getBuffer(input), 2);
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mDescriptorSet->writeBuffer(mConstBuffer->buffer(), 3, mConstBuffer->size());
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// Dispatch: x=1 (workgroup handles 128 threads internally), y=numRows, z=1
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mPipeline->bind(cmdBuffer->get(), mDescriptorSet->get());
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vkCmdDispatch(cmdBuffer->get(), 1, numRows, 1);
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return NO_ERROR;
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}
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class VulkanTopKV2Creator : 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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if (inputs.size() < 2 || outputs.size() != 2) {
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return nullptr;
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}
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if (TensorUtils::getDescribe(inputs[0])->dimensionFormat == MNN_DATA_FORMAT_NC4HW4) {
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return nullptr;
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}
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const int k = inputs[1]->host<int32_t>()[0];
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return new VulkanTopKV2(op, backend, k, inputs[0]);
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}
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};
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static bool gResistor = []() {
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VulkanBackend::addCreator(OpType_TopKV2, new VulkanTopKV2Creator);
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return true;
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}();
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} // namespace MNN
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