plain/20.02/_cl_batch_normalization_float_workload_8cpp_source.xhtml

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

 #include "ClBatchNormalizationFloatWorkload.hpp"
 #include <cl/ClTensorHandle.hpp>
 #include <backendsCommon/CpuTensorHandle.hpp>
 #include <aclCommon/ArmComputeTensorUtils.hpp>
 #include <cl/ClLayerSupport.hpp>

 #include "ClWorkloadUtils.hpp"

 namespace armnn
 {
 using namespace armcomputetensorutils;

 arm_compute::Status ClBatchNormalizationValidate(const TensorInfo& input,
                                                  const TensorInfo& output,
                                                  const TensorInfo& mean,
                                                  const TensorInfo& var,
                                                  const TensorInfo& beta,
                                                  const TensorInfo& gamma,
                                                  const BatchNormalizationDescriptor &desc)
 {
     const arm_compute::TensorInfo aclInputInfo =
           armcomputetensorutils::BuildArmComputeTensorInfo(input, desc.m_DataLayout);
     const arm_compute::TensorInfo aclOutputInfo =
           armcomputetensorutils::BuildArmComputeTensorInfo(output, desc.m_DataLayout);
     const arm_compute::TensorInfo aclMeanInfo =
           armcomputetensorutils::BuildArmComputeTensorInfo(mean, desc.m_DataLayout);
     const arm_compute::TensorInfo aclVarInfo =
           armcomputetensorutils::BuildArmComputeTensorInfo(var, desc.m_DataLayout);
     const arm_compute::TensorInfo aclBetaInfo =
           armcomputetensorutils::BuildArmComputeTensorInfo(beta, desc.m_DataLayout);
     const arm_compute::TensorInfo aclGammaInfo =
           armcomputetensorutils::BuildArmComputeTensorInfo(gamma, desc.m_DataLayout);

     return arm_compute::CLBatchNormalizationLayer::validate(&aclInputInfo,
                                                             &aclOutputInfo,
                                                             &aclMeanInfo,
                                                             &aclVarInfo,
                                                             &aclBetaInfo,
                                                             &aclGammaInfo,
                                                             desc.m_Eps);
 }

 ClBatchNormalizationFloatWorkload::ClBatchNormalizationFloatWorkload(
     const BatchNormalizationQueueDescriptor& descriptor, const WorkloadInfo& info)
     : FloatWorkload<BatchNormalizationQueueDescriptor>(descriptor, info)
 {
     m_Mean = std::make_unique<arm_compute::CLTensor>();
     BuildArmComputeTensor(*m_Mean, m_Data.m_Mean->GetTensorInfo());

     m_Variance = std::make_unique<arm_compute::CLTensor>();
     BuildArmComputeTensor(*m_Variance, m_Data.m_Variance->GetTensorInfo());

     m_Gamma = std::make_unique<arm_compute::CLTensor>();
     BuildArmComputeTensor(*m_Gamma, m_Data.m_Gamma->GetTensorInfo());

     m_Beta = std::make_unique<arm_compute::CLTensor>();
     BuildArmComputeTensor(*m_Beta, m_Data.m_Beta->GetTensorInfo());

     m_Data.ValidateInputsOutputs("ClBatchNormalizationFloatWorkload", 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();

     arm_compute::DataLayout aclDataLayout = ConvertDataLayout(m_Data.m_Parameters.m_DataLayout);
     input.info()->set_data_layout(aclDataLayout);
     output.info()->set_data_layout(aclDataLayout);

     m_Layer.configure(&input,
                       &output,
                       m_Mean.get(),
                       m_Variance.get(),
                       m_Beta.get(),
                       m_Gamma.get(),
                       m_Data.m_Parameters.m_Eps);

     InitializeArmComputeClTensorData(*m_Mean, m_Data.m_Mean);
     InitializeArmComputeClTensorData(*m_Variance, m_Data.m_Variance);
     InitializeArmComputeClTensorData(*m_Beta, m_Data.m_Beta);
     InitializeArmComputeClTensorData(*m_Gamma, m_Data.m_Gamma);

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

 void ClBatchNormalizationFloatWorkload::Execute() const
 {
     ARMNN_SCOPED_PROFILING_EVENT_CL("ClBatchNormalizationFloatWorkload_Execute");
     RunClFunction(m_Layer, CHECK_LOCATION());
 }

 void ClBatchNormalizationFloatWorkload::FreeUnusedTensors()
 {
     FreeTensorIfUnused(m_Mean);
     FreeTensorIfUnused(m_Variance);
     FreeTensorIfUnused(m_Gamma);
     FreeTensorIfUnused(m_Beta);
 }

 } //namespace armnn
ClBatchNormalizationFloatWorkload.hpp

armnn::ClBatchNormalizationValidate
arm_compute::Status ClBatchNormalizationValidate(const TensorInfo &input, const TensorInfo &output, const TensorInfo &mean, const TensorInfo &var, const TensorInfo &beta, const TensorInfo &gamma, const BatchNormalizationDescriptor &desc)
Definition: ClBatchNormalizationFloatWorkload.cpp:18

armnn::DataLayout
DataLayout
Definition: Types.hpp:49

armnn::InitializeArmComputeClTensorData
void InitializeArmComputeClTensorData(arm_compute::CLTensor &clTensor, const ConstCpuTensorHandle *handle)
Definition: ClWorkloadUtils.hpp:90

armnn::TensorInfo
Definition: Tensor.hpp:53

ARMNN_SCOPED_PROFILING_EVENT_CL
#define ARMNN_SCOPED_PROFILING_EVENT_CL(name)
Definition: ClWorkloadUtils.hpp:20

armnn::RunClFunction
void RunClFunction(arm_compute::IFunction &function, const CheckLocation &location)
Definition: ClWorkloadUtils.hpp:131

armnn::BaseWorkload::m_Data
const QueueDescriptor m_Data
Definition: Workload.hpp:46

armnn::BatchNormalizationDescriptor::m_Eps
float m_Eps
Value to add to the variance. Used to avoid dividing by zero.
Definition: Descriptors.hpp:623

armnn::BatchNormalizationDescriptor::m_DataLayout
DataLayout m_DataLayout
The data layout to be used (NCHW, NHWC).
Definition: Descriptors.hpp:625

ArmComputeTensorUtils.hpp

armnn::QueueDescriptor::ValidateInputsOutputs
void ValidateInputsOutputs(const std::string &descName, unsigned int numExpectedIn, unsigned int numExpectedOut) const
Definition: WorkloadData.cpp:461

armnn
Copyright (c) 2020 ARM Limited.
Definition: 00_introduction.dox:25

armnn::ClBatchNormalizationFloatWorkload::ClBatchNormalizationFloatWorkload
ClBatchNormalizationFloatWorkload(const BatchNormalizationQueueDescriptor &descriptor, const WorkloadInfo &info)
Definition: ClBatchNormalizationFloatWorkload.cpp:48

armnn::Status
Status
enumeration
Definition: Types.hpp:26

armnn::TypedWorkload
Definition: Workload.hpp:52

CHECK_LOCATION
#define CHECK_LOCATION()
Definition: Exceptions.hpp:192

CpuTensorHandle.hpp

ClTensorHandle.hpp

armnn::ClBatchNormalizationFloatWorkload::Execute
void Execute() const override
Definition: ClBatchNormalizationFloatWorkload.cpp:92

armnn::QueueDescriptor::m_Outputs
std::vector< ITensorHandle * > m_Outputs
Definition: WorkloadData.hpp:31

armnn::BoostLogSeverityMapping::info

armnn::IClTensorHandle
Definition: ClTensorHandle.hpp:25

armnn::BatchNormalizationQueueDescriptor
Definition: WorkloadData.hpp:269

armnn::WorkloadInfo
Contains information about inputs and outputs to a layer.
Definition: WorkloadInfo.hpp:16

armnn::QueueDescriptor::m_Inputs
std::vector< ITensorHandle * > m_Inputs
Definition: WorkloadData.hpp:30

ClWorkloadUtils.hpp

armnn::BatchNormalizationDescriptor
A BatchNormalizationDescriptor for the BatchNormalizationLayer.
Definition: Descriptors.hpp:610

ClLayerSupport.hpp