#include "TosaOperatorUtils.hpp"

Include dependency graph for Conv2dOperator.hpp:

This graph shows which files directly or indirectly include this file:

Functions
TosaSerializationBasicBlock *	ConvertConv2dToTosaOperator (const Layer layer, const std::vector< const TensorInfo > &inputs, const std::vector< const TensorInfo * > &outputs, const Convolution2dDescriptor *conv2dDescriptor)

Function Documentation

◆ ConvertConv2dToTosaOperator()

TosaSerializationBasicBlock* ConvertConv2dToTosaOperator	(	const Layer *	layer,
		const std::vector< const TensorInfo * > &	inputs,
		const std::vector< const TensorInfo * > &	outputs,
		const Convolution2dDescriptor *	conv2dDescriptor
	)

Definition at line 10 of file Conv2dOperator.cpp.

 {
     std::vector<std::string> inputNames;
     std::string outputName = std::string("output0_");
     std::string blockName  = std::string("Op_CONV2D_block_") + GetUniqueTosaMappingID();
  
     DType inputDType0 = ArmNNToDType(inputs[0]->GetDataType());
     DType outputDType0 = ArmNNToDType(outputs[0]->GetDataType());
  
     // Set input names for validation purposes only.
     if(layer == nullptr)
     {
         inputNames.emplace_back("input_0");
         inputNames.emplace_back("input_1");
         if(conv2dDescriptor->m_BiasEnabled)
         {
             inputNames.emplace_back("input_2");
         }
     }
     // If a layer is present then the block will be used for execution, so input and output names need to be
     // determined using the previous and following layers so the graph is connected correctly.
     // For validation this doesn't matter.
     else
     {
         // Get the layer connected to the input slot and determine unique tensor names.
         for (uint32_t i = 0; i < inputs.size(); ++i)
         {
             std::string inputName = GenerateUniqueInputName(layer->GetInputSlot(i));
             inputNames.push_back(inputName);
         }
  
         // Determine unique output tensor name.
         outputName = GenerateUniqueOutputName(*layer);
     }
  
     std::vector<TosaSerializationTensor*> tensors;
     std::vector<TosaSerializationOperator*> operators;
  
     // Setup input Tensor
     // Only add tensor if connected layer is an input layer.
     // As intermediate or constant tensors will be created separately.
     // There also can't be duplicate tensors.
     if(inputNames[0].find("input_") != std::string::npos)
     {
         std::vector<int32_t> inputShape0 = GetTosaTensorShape(inputs[0]->GetShape());
  
         tensors.push_back(new TosaSerializationTensor(inputNames[0], inputShape0, inputDType0, {}));
     }
  
     // Only add input tensors if weights and bias are not constant or if running validation.
     // Constant tensors will be created in the ConvertConstantToTosaOperator function.
     if(!inputs[1]->IsConstant() || layer == nullptr)
     {
         std::vector<int32_t> inputShape1 = GetTosaTensorShape(inputs[1]->GetShape());
         DType inputDType1 = ArmNNToDType(inputs[1]->GetDataType());
  
         tensors.push_back(new TosaSerializationTensor(inputNames[1], inputShape1, inputDType1, {}));
     }
  
     if(conv2dDescriptor->m_BiasEnabled)
     {
         if(!inputs[2]->IsConstant() || layer == nullptr)
         {
             std::vector<int32_t> inputShape2 = GetTosaTensorShape(inputs[2]->GetShape());
             DType inputDType2 = ArmNNToDType(inputs[2]->GetDataType());
  
             tensors.push_back(new TosaSerializationTensor(inputNames[2], inputShape2, inputDType2, {}));
         }
     }
     else
     {
         // If bias is disabled, create a constant bias of 0 as three inputs are required.
         std::string constantName = std::string("constant_") + GetUniqueTosaMappingID();
  
         operators.push_back(new TosaSerializationOperator(Op_CONST, Attribute_NONE, nullptr, {}, {constantName}));
  
         // The size of the bias must match the channels dimension, so get the correct index.
         unsigned int index = (conv2dDescriptor->m_DataLayout == DataLayout::NHWC) ? 3 : 1;
  
         const DType dType = (inputDType0 == DType_INT8) ? DType_INT32 : outputDType0;
         std::vector<float> data(outputs[0]->GetShape()[index], 0);
  
         std::vector<uint8_t> uint8Data;
         TosaSerializationHandler::ConvertF32toU8(data, uint8Data);
  
         tensors.push_back(new TosaSerializationTensor(constantName,
                                                       {static_cast<int32_t>(outputs[0]->GetShape()[index])},
                                                       dType,
                                                       uint8Data));
         inputNames.emplace_back(constantName);
     }
  
     // Setup Output Tensor
     std::vector<int32_t> outputShape0 = {GetTosaTensorShape(outputs[0]->GetShape())};
     std::string outputConv2dName;
     bool isInputInt8 = (inputDType0 == DType_INT8);
     if (isInputInt8)
     {
         outputConv2dName = std::string("intermediate0_") + GetUniqueTosaMappingID();
         tensors.push_back(new TosaSerializationTensor(outputConv2dName, outputShape0, DType_INT32, {}));
     }
     else
     {
         tensors.push_back(new TosaSerializationTensor(outputName, outputShape0, outputDType0, {}));
     }
  
     // Set up CONV2D operator
     std::vector<int> pad = {static_cast<int>(conv2dDescriptor->m_PadTop),
                             static_cast<int>(conv2dDescriptor->m_PadBottom),
                             static_cast<int>(conv2dDescriptor->m_PadLeft),
                             static_cast<int>(conv2dDescriptor->m_PadRight)};
     std::vector<int> stride = {static_cast<int>(conv2dDescriptor->m_StrideY),
                                static_cast<int>(conv2dDescriptor->m_StrideX)};
     std::vector<int> dilation = {static_cast<int>(conv2dDescriptor->m_DilationY),
                                  static_cast<int>(conv2dDescriptor->m_DilationX)};
     TosaConvAttribute attribute(pad, stride, dilation,
                                 inputs[0]->GetQuantizationOffset(), // input_zp
                                 inputs[1]->GetQuantizationOffset(), // weight_zp
                                 false); // local_bound
  
     std::string& convOutStr = isInputInt8 ? outputConv2dName : outputName;
     auto* conv2d_op = new TosaSerializationOperator(Op_CONV2D,
                                                     Attribute_ConvAttribute,
                                                     &attribute,
                                                     inputNames,
                                                     {convOutStr});
     operators.push_back(conv2d_op);
  
     if (isInputInt8)
     {
         int32_t output_zp = outputs[0]->GetQuantizationOffset();
         double output_scale = outputs[0]->GetQuantizationScales()[0];
         double input_scale = inputs[0]->GetQuantizationScales()[0];
         const std::vector<float>& weight_scales = inputs[1]->GetQuantizationScales();
  
         TosaSerializationOperator* rescaleOp = nullptr;
         CreateRescaleTosaOperatorPerChannel(outputConv2dName,
                                             outputName,
                                             0,
                                             output_zp,
                                             true,
                                             true,
                                             input_scale,
                                             output_scale,
                                             weight_scales,
                                             &rescaleOp);
         operators.push_back(rescaleOp);
         tensors.push_back(new TosaSerializationTensor(outputName,
                                                       outputShape0,
                                                       DType_INT8, {}));
     }
  
     // operatorInputNames/operatorOutputNames ends up being the same as
     // blockInputNames/blockOutputNames for one-to-one ArmNN to TOSA mappings
     return new TosaSerializationBasicBlock(blockName,     // name
                                            mainName,      // region name
                                            operators,     // operators
                                            tensors,       // tensors
                                            inputNames,    // inputs
                                            {outputName}); // outputs
 }

References ArmNNToDType(), GenerateUniqueInputName(), GenerateUniqueOutputName(), Layer::GetInputSlot(), GetTosaTensorShape(), GetUniqueTosaMappingID(), and Convolution2dDescriptor::m_BiasEnabled.

Referenced by GetTosaMapping().

Functions

Function Documentation

◆ ConvertConv2dToTosaOperator()