#include #include "utils.hpp" #include #include #include int main() { using InputType = hipdnn_data_sdk::types::half; const int64_t n = 1; // Batch size // Input const int64_t c = 16; // Number of channels const int64_t h = 16; // Height const int64_t w = 16; // Width // Filter const int64_t k = 16; // Number of filters const int64_t r = 3; // Height const int64_t s = 3; // Width auto buildConvBiasSwishGraph = [=](hipdnnHandle_t handle) { auto graph = std::make_shared(); graph->set_name("conv_bias_swish_graph") .set_io_data_type(hipdnn_frontend::getDataTypeEnumFromType()) .set_intermediate_data_type(hipdnn_frontend::getDataTypeEnumFromType()) .set_compute_data_type(hipdnn_frontend::DataType::FLOAT); // // create conv auto input = std::make_shared( hipdnn_frontend::graph::Tensor_attributes() .set_name("input") .set_dim({n, c, h, w}) .set_stride({c * h * w, 1, c * w, c})); auto filter = std::make_shared( hipdnn_frontend::graph::Tensor_attributes() .set_name("filter") .set_dim({k, c, r, s}) .set_stride({c * r * s, 1, c * s, c})); auto convFpropAttributes = hipdnn_frontend::graph::ConvFpropAttributes() .set_name("conv_fprop_node") .set_padding({0, 0}) .set_stride({1, 1}) .set_dilation({1, 1}); auto convOutput = graph->conv_fprop(input, filter, convFpropAttributes); // create bias auto bias = std::make_shared( hipdnn_frontend::graph::Tensor_attributes() .set_name("bias") .set_dim({1, k, 1, 1}) .set_stride({k, 1, k, k})); auto biasAttributes = hipdnn_frontend::graph::PointwiseAttributes() .set_name("bias_node") .set_mode(hipdnn_frontend::PointwiseMode_t::ADD); auto biasOutput = graph->pointwise(convOutput, bias, biasAttributes); // create swish auto swishAttributes = hipdnn_frontend::graph::PointwiseAttributes() .set_name("swish_node") .set_mode(hipdnn_frontend::PointwiseMode_t::SWISH_FWD); auto output = graph->pointwise(biasOutput, swishAttributes); output->set_output(true); // build graph HIPDNN_FE_CHECK(graph->build(handle)); return std::make_tuple(graph, input, filter, bias, output); }; auto backend = hipdnn_frontend::detail::hipdnnBackend(); if(!backend) { std::cout << "Creat backend failed. \n"; return 1; } hipdnnHandle_t handle; HIPDNN_CHECK(backend->create(&handle)); auto [graph, input, filter, bias, output] = buildConvBiasSwishGraph(handle); // Allocate DCU memory hipdnn_data_sdk::utilities::Tensor inputTensor(input->get_dim(), input->get_stride()); hipdnn_data_sdk::utilities::Tensor wTensor(filter->get_dim(), filter->get_stride()); hipdnn_data_sdk::utilities::Tensor biasTensor(bias->get_dim(), bias->get_stride()); hipdnn_data_sdk::utilities::Tensor outTensor(output->get_dim(), output->get_stride()); std::unordered_map variantPack; variantPack[input->get_uid()] = inputTensor.memory().deviceData(); variantPack[filter->get_uid()] = wTensor.memory().deviceData(); variantPack[bias->get_uid()] = biasTensor.memory().deviceData(); variantPack[output->get_uid()] = outTensor.memory().deviceData(); int64_t workspaceSize = 0; HIPDNN_FE_CHECK(graph->get_workspace_size(workspaceSize)); const hipdnn_data_sdk::utilities::Workspace workspace(static_cast(workspaceSize)); HIPDNN_FE_CHECK(graph->execute(handle, variantPack, workspace.get())); std::cout << "Convolution_bias_swish graph execution complete. \n"; HIPDNN_CHECK(backend->destroy(handle)); return 0; }