src/backends/ClWorkloads/ClConvolution2dUint8Workload.cpp - platform/external/armnn - Git at Google

 //
 // Copyright © 2017 Arm Ltd. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #include "ClConvolution2dUint8Workload.hpp"
 #include <backends/ClTensorHandle.hpp>
 #include <backends/CpuTensorHandle.hpp>
 #include <backends/aclCommon/ArmComputeTensorUtils.hpp>
 #include <backends/ClLayerSupport.hpp>

 #include "ClWorkloadUtils.hpp"

 namespace armnn
 {
 using namespace armcomputetensorutils;

 ClConvolution2dUint8Workload::ClConvolution2dUint8Workload(const Convolution2dQueueDescriptor& descriptor,
     const WorkloadInfo& info, std::shared_ptr<arm_compute::MemoryManagerOnDemand>& memoryManager)
     : Uint8Workload<Convolution2dQueueDescriptor>(descriptor, info)
     , m_ConvolutionLayer(memoryManager)
 {
     // todo: check tensor shapes match
     const TensorInfo& weightInfo = m_Data.m_Weight->GetTensorInfo();

     m_KernelTensor = std::make_unique<arm_compute::CLTensor>();
     BuildArmComputeTensor(*m_KernelTensor, weightInfo, descriptor.m_DataLayout);

     arm_compute::PadStrideInfo padStrideInfo(m_Data.m_Parameters.m_StrideX,
                                              m_Data.m_Parameters.m_StrideY,
                                              m_Data.m_Parameters.m_PadLeft,
                                              m_Data.m_Parameters.m_PadRight,
                                              m_Data.m_Parameters.m_PadTop,
                                              m_Data.m_Parameters.m_PadBottom,
                                              arm_compute::DimensionRoundingType::FLOOR);

     if (m_Data.m_Parameters.m_BiasEnabled)
     {
         m_BiasTensor = std::make_unique<arm_compute::CLTensor>();
         BuildArmComputeTensor(*m_BiasTensor, m_Data.m_Bias->GetTensorInfo(), descriptor.m_DataLayout);
     }

     m_Data.ValidateInputsOutputs("ClConvolution2dUint8Workload", 1, 1);

     arm_compute::ICLTensor& input  = static_cast<IClTensorHandle*>(m_Data.m_Inputs[0])->GetTensor();
     arm_compute::ICLTensor& output = static_cast<IClTensorHandle*>(m_Data.m_Outputs[0])->GetTensor();

     m_ConvolutionLayer.configure(&input,
                                  m_KernelTensor.get(),
                                  m_BiasTensor.get(),
                                  &output,
                                  padStrideInfo);

     InitializeArmComputeClTensorData(*m_KernelTensor, m_Data.m_Weight);

     if (m_BiasTensor)
     {
         InitializeArmComputeClTensorData(*m_BiasTensor, m_Data.m_Bias);
     }

     // Force Compute Library to perform the necessary copying and reshaping, after which
     // delete all the input tensors that will no longer be needed
     m_ConvolutionLayer.prepare();
     FreeUnusedTensors();
 }

 void ClConvolution2dUint8Workload::Execute() const
 {
     ARMNN_SCOPED_PROFILING_EVENT_CL("ClConvolution2dUint8Workload_Execute");

     m_ConvolutionLayer.run();
 }

 void ClConvolution2dUint8Workload::FreeUnusedTensors()
 {
     FreeTensorIfUnused(m_KernelTensor);
     FreeTensorIfUnused(m_BiasTensor);
 }

 } //namespace armnn
	//
	// Copyright © 2017 Arm Ltd. All rights reserved.
	// SPDX-License-Identifier: MIT
	//

	#include "ClConvolution2dUint8Workload.hpp"
	#include <backends/ClTensorHandle.hpp>
	#include <backends/CpuTensorHandle.hpp>
	#include <backends/aclCommon/ArmComputeTensorUtils.hpp>
	#include <backends/ClLayerSupport.hpp>

	#include "ClWorkloadUtils.hpp"

	namespace armnn
	{
	using namespace armcomputetensorutils;

	ClConvolution2dUint8Workload::ClConvolution2dUint8Workload(const Convolution2dQueueDescriptor& descriptor,
	const WorkloadInfo& info, std::shared_ptr<arm_compute::MemoryManagerOnDemand>& memoryManager)
	: Uint8Workload<Convolution2dQueueDescriptor>(descriptor, info)
	, m_ConvolutionLayer(memoryManager)
	{
	// todo: check tensor shapes match
	const TensorInfo& weightInfo = m_Data.m_Weight->GetTensorInfo();

	m_KernelTensor = std::make_unique<arm_compute::CLTensor>();
	BuildArmComputeTensor(*m_KernelTensor, weightInfo, descriptor.m_DataLayout);

	arm_compute::PadStrideInfo padStrideInfo(m_Data.m_Parameters.m_StrideX,
	m_Data.m_Parameters.m_StrideY,
	m_Data.m_Parameters.m_PadLeft,
	m_Data.m_Parameters.m_PadRight,
	m_Data.m_Parameters.m_PadTop,
	m_Data.m_Parameters.m_PadBottom,
	arm_compute::DimensionRoundingType::FLOOR);

	if (m_Data.m_Parameters.m_BiasEnabled)
	{
	m_BiasTensor = std::make_unique<arm_compute::CLTensor>();
	BuildArmComputeTensor(*m_BiasTensor, m_Data.m_Bias->GetTensorInfo(), descriptor.m_DataLayout);
	}

	m_Data.ValidateInputsOutputs("ClConvolution2dUint8Workload", 1, 1);

	arm_compute::ICLTensor& input = static_cast<IClTensorHandle*>(m_Data.m_Inputs[0])->GetTensor();
	arm_compute::ICLTensor& output = static_cast<IClTensorHandle*>(m_Data.m_Outputs[0])->GetTensor();

	m_ConvolutionLayer.configure(&input,
	m_KernelTensor.get(),
	m_BiasTensor.get(),
	&output,
	padStrideInfo);

	InitializeArmComputeClTensorData(*m_KernelTensor, m_Data.m_Weight);

	if (m_BiasTensor)
	{
	InitializeArmComputeClTensorData(*m_BiasTensor, m_Data.m_Bias);
	}

	// Force Compute Library to perform the necessary copying and reshaping, after which
	// delete all the input tensors that will no longer be needed
	m_ConvolutionLayer.prepare();
	FreeUnusedTensors();
	}

	void ClConvolution2dUint8Workload::Execute() const
	{
	ARMNN_SCOPED_PROFILING_EVENT_CL("ClConvolution2dUint8Workload_Execute");

	m_ConvolutionLayer.run();
	}

	void ClConvolution2dUint8Workload::FreeUnusedTensors()
	{
	FreeTensorIfUnused(m_KernelTensor);
	FreeTensorIfUnused(m_BiasTensor);
	}

	} //namespace armnn