#include <BackendHelper.hpp>

Public Member Functions
	LayerSupportHandle (std::shared_ptr< ILayerSupport > layerSupport)

	LayerSupportHandle (std::shared_ptr< ILayerSupport > layerSupport, const BackendId &backendId)

bool	IsBackendRegistered () const

bool	IsActivationSupported (const TensorInfo &input, const TensorInfo &output, const ActivationDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsAdditionSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsArgMinMaxSupported (const TensorInfo &input, const TensorInfo &output, const ArgMinMaxDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsBatchMatMulSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, const BatchMatMulDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsBatchNormalizationSupported (const TensorInfo &input, const TensorInfo &output, const TensorInfo &mean, const TensorInfo &var, const TensorInfo &beta, const TensorInfo &gamma, const BatchNormalizationDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsBatchToSpaceNdSupported (const TensorInfo &input, const TensorInfo &output, const BatchToSpaceNdDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsBroadcastToSupported (const TensorInfo &input, const TensorInfo &output, const BroadcastToDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported)

bool	IsCastSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsChannelShuffleSupported (const TensorInfo &input, const TensorInfo &output, const ChannelShuffleDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsComparisonSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, const ComparisonDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsConcatSupported (const std::vector< const TensorInfo * > inputs, const TensorInfo &output, const OriginsDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsConstantSupported (const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsConvertFp16ToFp32Supported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsConvertFp32ToFp16Supported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsConvolution2dSupported (const TensorInfo &input, const TensorInfo &output, const Convolution2dDescriptor &descriptor, const TensorInfo &weights, const Optional< TensorInfo > &biases, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsConvolution3dSupported (const TensorInfo &input, const TensorInfo &output, const Convolution3dDescriptor &descriptor, const TensorInfo &weights, const Optional< TensorInfo > &biases, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsDebugSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsDepthToSpaceSupported (const TensorInfo &input, const TensorInfo &output, const DepthToSpaceDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsDepthwiseConvolutionSupported (const TensorInfo &input, const TensorInfo &output, const DepthwiseConvolution2dDescriptor &descriptor, const TensorInfo &weights, const Optional< TensorInfo > &biases, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsDequantizeSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsDetectionPostProcessSupported (const TensorInfo &boxEncodings, const TensorInfo &scores, const TensorInfo &anchors, const TensorInfo &detectionBoxes, const TensorInfo &detectionClasses, const TensorInfo &detectionScores, const TensorInfo &numDetections, const DetectionPostProcessDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsDilatedDepthwiseConvolutionSupported (const TensorInfo &input, const TensorInfo &output, const DepthwiseConvolution2dDescriptor &descriptor, const TensorInfo &weights, const Optional< TensorInfo > &biases, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsDivisionSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsElementwiseBinarySupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, const ElementwiseBinaryDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsElementwiseUnarySupported (const TensorInfo &input, const TensorInfo &output, const ElementwiseUnaryDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsFakeQuantizationSupported (const TensorInfo &input, const FakeQuantizationDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsFillSupported (const TensorInfo &input, const TensorInfo &output, const FillDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsFloorSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsFullyConnectedSupported (const TensorInfo &input, const TensorInfo &output, const TensorInfo &weights, const TensorInfo &biases, const FullyConnectedDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsFusedSupported (const std::vector< std::reference_wrapper< TensorInfo >> &inputs, const std::vector< std::reference_wrapper< TensorInfo >> &outputs, const FusedDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsGatherSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, const GatherDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsGatherNdSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsInputSupported (const TensorInfo &input, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsInstanceNormalizationSupported (const TensorInfo &input, const TensorInfo &output, const InstanceNormalizationDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsL2NormalizationSupported (const TensorInfo &input, const TensorInfo &output, const L2NormalizationDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsLogicalBinarySupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, const LogicalBinaryDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsLogicalUnarySupported (const TensorInfo &input, const TensorInfo &output, const ElementwiseUnaryDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsLogSoftmaxSupported (const TensorInfo &input, const TensorInfo &output, const LogSoftmaxDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsLstmSupported (const TensorInfo &input, const TensorInfo &outputStateIn, const TensorInfo &cellStateIn, const TensorInfo &scratchBuffer, const TensorInfo &outputStateOut, const TensorInfo &cellStateOut, const TensorInfo &output, const LstmDescriptor &descriptor, const LstmInputParamsInfo &paramsInfo, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsMaximumSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsMeanSupported (const TensorInfo &input, const TensorInfo &output, const MeanDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsMemCopySupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsMemImportSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsMergeSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsMinimumSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsMultiplicationSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsNormalizationSupported (const TensorInfo &input, const TensorInfo &output, const NormalizationDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsOutputSupported (const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsPadSupported (const TensorInfo &input, const TensorInfo &output, const PadDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsPermuteSupported (const TensorInfo &input, const TensorInfo &output, const PermuteDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsPooling2dSupported (const TensorInfo &input, const TensorInfo &output, const Pooling2dDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsPooling3dSupported (const TensorInfo &input, const TensorInfo &output, const Pooling3dDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsPreCompiledSupported (const TensorInfo &input, const PreCompiledDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsPreluSupported (const TensorInfo &input, const TensorInfo &alpha, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsQuantizeSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsQLstmSupported (const TensorInfo &input, const TensorInfo &previousOutputIn, const TensorInfo &previousCellStateIn, const TensorInfo &outputStateOut, const TensorInfo &cellStateOut, const TensorInfo &output, const QLstmDescriptor &descriptor, const LstmInputParamsInfo &paramsInfo, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsQuantizedLstmSupported (const TensorInfo &input, const TensorInfo &previousCellStateIn, const TensorInfo &previousOutputIn, const TensorInfo &cellStateOut, const TensorInfo &output, const QuantizedLstmInputParamsInfo &paramsInfo, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsRankSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsReduceSupported (const TensorInfo &input, const TensorInfo &output, const ReduceDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsReshapeSupported (const TensorInfo &input, const TensorInfo &output, const ReshapeDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsResizeSupported (const TensorInfo &input, const TensorInfo &output, const ResizeDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsReverseV2Supported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsShapeSupported (const TensorInfo &input, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsSliceSupported (const TensorInfo &input, const TensorInfo &output, const SliceDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsSoftmaxSupported (const TensorInfo &input, const TensorInfo &output, const SoftmaxDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsSpaceToBatchNdSupported (const TensorInfo &input, const TensorInfo &output, const SpaceToBatchNdDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsSpaceToDepthSupported (const TensorInfo &input, const TensorInfo &output, const SpaceToDepthDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsSplitterSupported (const TensorInfo &input, const std::vector< std::reference_wrapper< TensorInfo >> &outputs, const ViewsDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsStackSupported (const std::vector< const TensorInfo * > &inputs, const TensorInfo &output, const StackDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsStandInSupported (const std::vector< const TensorInfo * > &inputs, const std::vector< const TensorInfo * > &outputs, const StandInDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsStridedSliceSupported (const TensorInfo &input, const TensorInfo &output, const StridedSliceDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsSubtractionSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsSwitchSupported (const TensorInfo &input0, const TensorInfo &input1, const TensorInfo &output0, const TensorInfo &output1, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsTileSupported (const TensorInfo &input, const TensorInfo &output, const TileDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsTransposeConvolution2dSupported (const TensorInfo &input, const TensorInfo &output, const TransposeConvolution2dDescriptor &descriptor, const TensorInfo &weights, const Optional< TensorInfo > &biases, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsTransposeSupported (const TensorInfo &input, const TensorInfo &output, const TransposeDescriptor &descriptor, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

bool	IsUnidirectionalSequenceLstmSupported (const TensorInfo &input, const TensorInfo &outputStateIn, const TensorInfo &cellStateIn, const TensorInfo &outputStateOut, const TensorInfo &cellStateOut, const TensorInfo &output, const LstmDescriptor &descriptor, const LstmInputParamsInfo &paramsInfo, Optional< std::string & > reasonIfUnsupported=EmptyOptional())

Detailed Description

Definition at line 29 of file BackendHelper.hpp.

Constructor & Destructor Documentation

◆ LayerSupportHandle() [1/2]

LayerSupportHandle ( std::shared_ptr< ILayerSupport > layerSupport )

inlineexplicit

Definition at line 32 of file BackendHelper.hpp.

33 : m_LayerSupport(std::move(layerSupport)), m_BackendId(Compute::Undefined) {};

References armnn::Undefined.

◆ LayerSupportHandle() [2/2]

LayerSupportHandle	(	std::shared_ptr< ILayerSupport >	layerSupport,
		const BackendId &	backendId
	)

inlineexplicit

Definition at line 35 of file BackendHelper.hpp.

36 : m_LayerSupport(std::move(layerSupport)), m_BackendId(backendId) {};

Member Function Documentation

◆ IsActivationSupported()

bool IsActivationSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ActivationDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 154 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Activation,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Activation.

◆ IsAdditionSupported()

bool IsAdditionSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 169 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Addition,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Addition.

◆ IsArgMinMaxSupported()

bool IsArgMinMaxSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ArgMinMaxDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 184 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ArgMinMax,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ArgMinMax.

◆ IsBackendRegistered()

bool IsBackendRegistered ( ) const

Definition at line 142 of file BackendHelper.cpp.

 {
     if (m_LayerSupport)
     {
         return true;
     }
  
     return false;
 }

◆ IsBatchMatMulSupported()

bool IsBatchMatMulSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		const BatchMatMulDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 199 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::BatchMatMul,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::BatchMatMul.

◆ IsBatchNormalizationSupported()

bool IsBatchNormalizationSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const TensorInfo &	mean,
		const TensorInfo &	var,
		const TensorInfo &	beta,
		const TensorInfo &	gamma,
		const BatchNormalizationDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 215 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output, mean, var, beta, gamma};
  
     return m_LayerSupport->IsLayerSupported(LayerType::BatchNormalization,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::BatchNormalization.

◆ IsBatchToSpaceNdSupported()

bool IsBatchToSpaceNdSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const BatchToSpaceNdDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 234 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::BatchToSpaceNd,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::BatchToSpaceNd.

◆ IsBroadcastToSupported()

bool IsBroadcastToSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const BroadcastToDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported
	)

Definition at line 250 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::BroadcastTo,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported.value());
 }

References armnn::BroadcastTo, and OptionalReferenceSwitch< std::is_reference< T >::value, T >::value().

◆ IsCastSupported()

bool IsCastSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 265 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Cast,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Cast.

◆ IsChannelShuffleSupported()

bool IsChannelShuffleSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ChannelShuffleDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 279 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ChannelShuffle,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ChannelShuffle.

◆ IsComparisonSupported()

bool IsComparisonSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		const ComparisonDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 294 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Comparison,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Comparison.

◆ IsConcatSupported()

bool IsConcatSupported	(	const std::vector< const TensorInfo * >	inputs,
		const TensorInfo &	output,
		const OriginsDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 310 of file BackendHelper.cpp.

 {
     TensorInfos infos;
     for (const TensorInfo* inputInfo : inputs)
     {
         infos.push_back(*inputInfo);
     }
     infos.push_back(output);
  
     return m_LayerSupport->IsLayerSupported(LayerType::Concat,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Concat.

◆ IsConstantSupported()

bool IsConstantSupported	(	const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 330 of file BackendHelper.cpp.

 {
     TensorInfos infos{output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Constant,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Constant.

◆ IsConvertFp16ToFp32Supported()

bool IsConvertFp16ToFp32Supported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 343 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ConvertFp16ToFp32,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ConvertFp16ToFp32.

◆ IsConvertFp32ToFp16Supported()

bool IsConvertFp32ToFp16Supported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 357 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ConvertFp32ToFp16,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ConvertFp32ToFp16.

◆ IsConvolution2dSupported()

bool IsConvolution2dSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const Convolution2dDescriptor &	descriptor,
		const TensorInfo &	weights,
		const Optional< TensorInfo > &	biases,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 371 of file BackendHelper.cpp.

 {
     TensorInfo biasesVal =  biases.has_value() ? biases.value() : TensorInfo();
     TensorInfos infos{input, output, weights, biasesVal};
  
     Optional<const BackendOptions::BackendOption> capability ;
     if (!m_BackendId.IsUndefined())
     {
         capability = GetCapability("NonConstWeights", m_BackendId);
         if (!capability.has_value() || capability.value().GetValue().AsBool() == false)
         {
             if (!weights.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                         "Backend is not capable of supporting dynamic weights (NonConstWeights) and "
                         "Convolution2d weights are set as dynamic (non constant). ";
                 }
                 return false;
             }
             if (descriptor.m_BiasEnabled && !biasesVal.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic biases (NonConstWeights) and "
                             "Convolution2d biases are set as dynamic (non constant). ";
                 }
                 return false;
             }
  
             // At the first stage we will only print a warning. this is to give
             // backend developers a chance to adopt and read weights from input slots.
             ARMNN_LOG(warning) << "The backend makes use of a deprecated interface to read constant tensors. "
                                   "If you are a backend developer please find more information in our "
                                   "doxygen documentation on github https://github.com/ARM-software/armnn "
                                   "under the keyword 'ConstTensorsAsInputs'.";
         }
     }
  
     return m_LayerSupport->IsLayerSupported(LayerType::Convolution2d,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References ARMNN_LOG, armnn::Convolution2d, armnn::GetCapability(), OptionalBase::has_value(), TensorInfo::IsConstant(), BackendId::IsUndefined(), Convolution2dDescriptor::m_BiasEnabled, OptionalReferenceSwitch< std::is_reference< T >::value, T >::value(), and armnn::warning.

◆ IsConvolution3dSupported()

bool IsConvolution3dSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const Convolution3dDescriptor &	descriptor,
		const TensorInfo &	weights,
		const Optional< TensorInfo > &	biases,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 425 of file BackendHelper.cpp.

 {
     TensorInfo biasesVal =  biases.has_value() ? biases.value() : TensorInfo();
     TensorInfos infos{input, output, weights, biasesVal};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Convolution3d,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Convolution3d, OptionalBase::has_value(), and OptionalReferenceSwitch< std::is_reference< T >::value, T >::value().

◆ IsDebugSupported()

bool IsDebugSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 443 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Debug,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Debug.

◆ IsDepthToSpaceSupported()

bool IsDepthToSpaceSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const DepthToSpaceDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 457 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::DepthToSpace,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::DepthToSpace.

◆ IsDepthwiseConvolutionSupported()

bool IsDepthwiseConvolutionSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const DepthwiseConvolution2dDescriptor &	descriptor,
		const TensorInfo &	weights,
		const Optional< TensorInfo > &	biases,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 472 of file BackendHelper.cpp.

 {
     TensorInfo biasesVal =  biases.has_value() ? biases.value() : TensorInfo();
     TensorInfos infos{input, output, weights, biasesVal};
  
     Optional<const BackendOptions::BackendOption> capability ;
     if (!m_BackendId.IsUndefined())
     {
         capability = GetCapability("NonConstWeights", m_BackendId);
         if (!capability.has_value() || capability.value().GetValue().AsBool() == false)
         {
             if (!weights.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic weights (NonConstWeights) and "
                             "DepthwiseConvolution2d weights are set as dynamic (non constant). ";
                 }
                 return false;
             }
             if (descriptor.m_BiasEnabled && !biasesVal.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic biases (NonConstWeights) and "
                             "DepthwiseConvolution2d biases are set as dynamic (non constant). ";
                 }
                 return false;
             }
             // At the first stage we will only print a warning. this is to give
             // backend developers a chance to adopt and read weights from input slots.
             ARMNN_LOG(warning) << "The backend makes use of a deprecated interface to read constant tensors. "
                                   "If you are a backend developer please find more information in our "
                                   "doxygen documentation on github https://github.com/ARM-software/armnn "
                                   "under the keyword 'ConstTensorsAsInputs'.";
         }
     }
  
     return m_LayerSupport->IsLayerSupported(LayerType::DepthwiseConvolution2d,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References ARMNN_LOG, armnn::DepthwiseConvolution2d, armnn::GetCapability(), OptionalBase::has_value(), TensorInfo::IsConstant(), BackendId::IsUndefined(), DepthwiseConvolution2dDescriptor::m_BiasEnabled, OptionalReferenceSwitch< std::is_reference< T >::value, T >::value(), and armnn::warning.

◆ IsDequantizeSupported()

bool IsDequantizeSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 526 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Dequantize,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Dequantize.

◆ IsDetectionPostProcessSupported()

bool IsDetectionPostProcessSupported	(	const TensorInfo &	boxEncodings,
		const TensorInfo &	scores,
		const TensorInfo &	anchors,
		const TensorInfo &	detectionBoxes,
		const TensorInfo &	detectionClasses,
		const TensorInfo &	detectionScores,
		const TensorInfo &	numDetections,
		const DetectionPostProcessDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 540 of file BackendHelper.cpp.

 {
     TensorInfos infos{boxEncodings, scores, anchors, detectionBoxes, detectionClasses, detectionScores, numDetections};
  
     return m_LayerSupport->IsLayerSupported(LayerType::DetectionPostProcess,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::DetectionPostProcess.

◆ IsDilatedDepthwiseConvolutionSupported()

bool IsDilatedDepthwiseConvolutionSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const DepthwiseConvolution2dDescriptor &	descriptor,
		const TensorInfo &	weights,
		const Optional< TensorInfo > &	biases,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 560 of file BackendHelper.cpp.

 {
     TensorInfo biasesVal =  biases.has_value() ? biases.value() : TensorInfo();
     TensorInfos infos{input, output, weights, biasesVal};
  
     Optional<const BackendOptions::BackendOption> capability ;
     if (!m_BackendId.IsUndefined())
     {
         capability = GetCapability("NonConstWeights", m_BackendId);
         if (!capability.has_value() || capability.value().GetValue().AsBool() == false)
         {
             if (!weights.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic weights (NonConstWeights) and "
                             "DilatedDepthwiseConvolution2d weights are set as dynamic (non constant). ";
                 }
                 return false;
             }
             if (descriptor.m_BiasEnabled && !biasesVal.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic biases (NonConstWeights) and "
                             "DilatedDepthwiseConvolution2d biases are set as dynamic (non constant). ";
                 }
                 return false;
             }
             // At the first stage we will only print a warning. this is to give
             // backend developers a chance to adopt and read weights from input slots.
             ARMNN_LOG(warning) << "The backend makes use of a deprecated interface to read constant tensors. "
                                   "If you are a backend developer please find more information in our "
                                   "doxygen documentation on github https://github.com/ARM-software/armnn "
                                   "under the keyword 'ConstTensorsAsInputs'.";
         }
     }
  
     return m_LayerSupport->IsLayerSupported(LayerType::DepthwiseConvolution2d,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References ARMNN_LOG, armnn::DepthwiseConvolution2d, armnn::GetCapability(), OptionalBase::has_value(), TensorInfo::IsConstant(), BackendId::IsUndefined(), DepthwiseConvolution2dDescriptor::m_BiasEnabled, OptionalReferenceSwitch< std::is_reference< T >::value, T >::value(), and armnn::warning.

◆ IsDivisionSupported()

bool IsDivisionSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 614 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Division,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Division.

◆ IsElementwiseBinarySupported()

bool IsElementwiseBinarySupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		const ElementwiseBinaryDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 629 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ElementwiseBinary,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ElementwiseBinary.

◆ IsElementwiseUnarySupported()

bool IsElementwiseUnarySupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ElementwiseUnaryDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 645 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ElementwiseUnary,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ElementwiseUnary.

◆ IsFakeQuantizationSupported()

bool IsFakeQuantizationSupported	(	const TensorInfo &	input,
		const FakeQuantizationDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 660 of file BackendHelper.cpp.

 {
     TensorInfos infos{input};
  
     return m_LayerSupport->IsLayerSupported(LayerType::FakeQuantization,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::FakeQuantization.

◆ IsFillSupported()

bool IsFillSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const FillDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 674 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Fill,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Fill.

◆ IsFloorSupported()

bool IsFloorSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 689 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Floor,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Floor.

◆ IsFullyConnectedSupported()

bool IsFullyConnectedSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const TensorInfo &	weights,
		const TensorInfo &	biases,
		const FullyConnectedDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 703 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output, weights, biases};
  
     Optional<const BackendOptions::BackendOption> capability;
     if (!m_BackendId.IsUndefined())
     {
         capability = GetCapability("NonConstWeights", m_BackendId);
         if (!capability.has_value() || capability.value().GetValue().AsBool() == false)
         {
             if (!descriptor.m_ConstantWeights)
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic weights (NonConstWeights) and "
                             "FullyConnected descriptor indicates that weights are dynamic (non constant). ";
                 }
                 return false;
             }
             if (!weights.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic weights (NonConstWeights) and "
                             "FullyConnected weights are set as dynamic (non constant). ";
                 }
  
                 return false;
             }
             if (descriptor.m_BiasEnabled && !biases.IsConstant())
             {
                 if (reasonIfUnsupported.has_value())
                 {
                     reasonIfUnsupported.value() =
                             "Backend is not capable of supporting dynamic biases (NonConstWeights) and "
                             "FullyConnected biases are set as dynamic (non constant). ";
                 }
                 return false;
             }
  
             // At the first stage we will only print a warning. this is to give
             // backend developers a chance to adopt and read weights from input slots.
             ARMNN_LOG(warning) << "The backend makes use of a deprecated interface to read constant tensors. "
                                   "If you are a backend developer please find more information in our "
                                   "doxygen documentation on github https://github.com/ARM-software/armnn "
                                   "under the keyword 'ConstTensorsAsInputs'.";
         }
     }
  
     return m_LayerSupport->IsLayerSupported(LayerType::FullyConnected,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References ARMNN_LOG, armnn::FullyConnected, armnn::GetCapability(), OptionalBase::has_value(), TensorInfo::IsConstant(), BackendId::IsUndefined(), FullyConnectedDescriptor::m_BiasEnabled, FullyConnectedDescriptor::m_ConstantWeights, OptionalReferenceSwitch< std::is_reference< T >::value, T >::value(), and armnn::warning.

◆ IsFusedSupported()

bool IsFusedSupported	(	const std::vector< std::reference_wrapper< TensorInfo >> &	inputs,
		const std::vector< std::reference_wrapper< TensorInfo >> &	outputs,
		const FusedDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 767 of file BackendHelper.cpp.

 {
     TensorInfos infos;
     infos.reserve(inputs.size() + outputs.size());
     for (TensorInfo inInfo : inputs)
     {
         infos.emplace_back(inInfo);
     }
     for (TensorInfo outInfo : outputs)
     {
         infos.emplace_back(outInfo);
     }
  
     return m_LayerSupport->IsLayerSupported(LayerType::Fused,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Fused.

◆ IsGatherNdSupported()

bool IsGatherNdSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 807 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::GatherNd,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::GatherNd.

◆ IsGatherSupported()

bool IsGatherSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		const GatherDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 791 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Gather,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Gather.

◆ IsInputSupported()

bool IsInputSupported	(	const TensorInfo &	input,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 822 of file BackendHelper.cpp.

 {
     TensorInfos infos{input};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Input,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Input.

◆ IsInstanceNormalizationSupported()

bool IsInstanceNormalizationSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const InstanceNormalizationDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 835 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::InstanceNormalization,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::InstanceNormalization.

◆ IsL2NormalizationSupported()

bool IsL2NormalizationSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const L2NormalizationDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 851 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::L2Normalization,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::L2Normalization.

◆ IsLogicalBinarySupported()

bool IsLogicalBinarySupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		const LogicalBinaryDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 866 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::LogicalBinary,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::LogicalBinary.

◆ IsLogicalUnarySupported()

bool IsLogicalUnarySupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ElementwiseUnaryDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 882 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ElementwiseUnary,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ElementwiseUnary.

◆ IsLogSoftmaxSupported()

bool IsLogSoftmaxSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const LogSoftmaxDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 897 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::LogSoftmax,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::LogSoftmax.

◆ IsLstmSupported()

bool IsLstmSupported	(	const TensorInfo &	input,
		const TensorInfo &	outputStateIn,
		const TensorInfo &	cellStateIn,
		const TensorInfo &	scratchBuffer,
		const TensorInfo &	outputStateOut,
		const TensorInfo &	cellStateOut,
		const TensorInfo &	output,
		const LstmDescriptor &	descriptor,
		const LstmInputParamsInfo &	paramsInfo,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 912 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, outputStateIn, cellStateIn, scratchBuffer, outputStateOut, cellStateOut, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Lstm,
                                             infos,
                                             descriptor,
                                             paramsInfo,
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Lstm.

◆ IsMaximumSupported()

bool IsMaximumSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 933 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Maximum,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Maximum.

◆ IsMeanSupported()

bool IsMeanSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const MeanDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 948 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Mean,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Mean.

◆ IsMemCopySupported()

bool IsMemCopySupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 963 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::MemCopy,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::MemCopy.

◆ IsMemImportSupported()

bool IsMemImportSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 977 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::MemImport,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::MemImport.

◆ IsMergeSupported()

bool IsMergeSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 991 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Merge,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Merge.

◆ IsMinimumSupported()

bool IsMinimumSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1006 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Minimum,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Minimum.

◆ IsMultiplicationSupported()

bool IsMultiplicationSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1021 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Multiplication,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Multiplication.

◆ IsNormalizationSupported()

bool IsNormalizationSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const NormalizationDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1036 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Normalization,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Normalization.

◆ IsOutputSupported()

bool IsOutputSupported	(	const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1051 of file BackendHelper.cpp.

 {
     TensorInfos infos{output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Output,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Output.

◆ IsPadSupported()

bool IsPadSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const PadDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1064 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Pad,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Pad.

◆ IsPermuteSupported()

bool IsPermuteSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const PermuteDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1079 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Permute,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Permute.

◆ IsPooling2dSupported()

bool IsPooling2dSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const Pooling2dDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1094 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Pooling2d,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Pooling2d.

◆ IsPooling3dSupported()

bool IsPooling3dSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const Pooling3dDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1109 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Pooling3d,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Pooling3d.

◆ IsPreCompiledSupported()

bool IsPreCompiledSupported	(	const TensorInfo &	input,
		const PreCompiledDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1124 of file BackendHelper.cpp.

 {
     TensorInfos infos{input};
  
     return m_LayerSupport->IsLayerSupported(LayerType::PreCompiled,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::PreCompiled.

◆ IsPreluSupported()

bool IsPreluSupported	(	const TensorInfo &	input,
		const TensorInfo &	alpha,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1138 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, alpha, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Prelu,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Prelu.

◆ IsQLstmSupported()

bool IsQLstmSupported	(	const TensorInfo &	input,
		const TensorInfo &	previousOutputIn,
		const TensorInfo &	previousCellStateIn,
		const TensorInfo &	outputStateOut,
		const TensorInfo &	cellStateOut,
		const TensorInfo &	output,
		const QLstmDescriptor &	descriptor,
		const LstmInputParamsInfo &	paramsInfo,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1167 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, previousOutputIn, previousCellStateIn, outputStateOut, cellStateOut, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::QLstm,
                                             infos,
                                             descriptor,
                                             paramsInfo,
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::QLstm.

◆ IsQuantizedLstmSupported()

bool IsQuantizedLstmSupported	(	const TensorInfo &	input,
		const TensorInfo &	previousCellStateIn,
		const TensorInfo &	previousOutputIn,
		const TensorInfo &	cellStateOut,
		const TensorInfo &	output,
		const QuantizedLstmInputParamsInfo &	paramsInfo,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1187 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, previousCellStateIn, previousOutputIn, cellStateOut, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::QuantizedLstm,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             paramsInfo,
                                             reasonIfUnsupported);
 }

References armnn::QuantizedLstm.

◆ IsQuantizeSupported()

bool IsQuantizeSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1153 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Quantize,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Quantize.

◆ IsRankSupported()

bool IsRankSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1205 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Rank,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Rank.

◆ IsReduceSupported()

bool IsReduceSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ReduceDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1219 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Reduce,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Reduce.

◆ IsReshapeSupported()

bool IsReshapeSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ReshapeDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1234 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Reshape,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Reshape.

◆ IsResizeSupported()

bool IsResizeSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const ResizeDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1249 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Resize,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Resize.

◆ IsReverseV2Supported()

bool IsReverseV2Supported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1264 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::ReverseV2,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::ReverseV2.

◆ IsShapeSupported()

bool IsShapeSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1279 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Shape,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Shape.

◆ IsSliceSupported()

bool IsSliceSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const SliceDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1293 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Slice,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Slice.

◆ IsSoftmaxSupported()

bool IsSoftmaxSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const SoftmaxDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1308 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Softmax,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Softmax.

◆ IsSpaceToBatchNdSupported()

bool IsSpaceToBatchNdSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const SpaceToBatchNdDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1323 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::SpaceToBatchNd,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::SpaceToBatchNd.

◆ IsSpaceToDepthSupported()

bool IsSpaceToDepthSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const SpaceToDepthDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1338 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::SpaceToDepth,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::SpaceToDepth.

◆ IsSplitterSupported()

bool IsSplitterSupported	(	const TensorInfo &	input,
		const std::vector< std::reference_wrapper< TensorInfo >> &	outputs,
		const ViewsDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1353 of file BackendHelper.cpp.

 {
     TensorInfos infos{input};
     for (TensorInfo outInfo : outputs)
     {
         infos.push_back(outInfo);
     }
  
     return m_LayerSupport->IsLayerSupported(LayerType::Splitter,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Splitter.

◆ IsStackSupported()

bool IsStackSupported	(	const std::vector< const TensorInfo * > &	inputs,
		const TensorInfo &	output,
		const StackDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1372 of file BackendHelper.cpp.

 {
     TensorInfos infos;
     for (const TensorInfo* inputInfo : inputs)
     {
         infos.push_back(*inputInfo);
     }
     infos.push_back(output);
  
     return m_LayerSupport->IsLayerSupported(LayerType::Stack,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Stack.

◆ IsStandInSupported()

bool IsStandInSupported	(	const std::vector< const TensorInfo * > &	inputs,
		const std::vector< const TensorInfo * > &	outputs,
		const StandInDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1392 of file BackendHelper.cpp.

 {
     TensorInfos infos;
     for (const TensorInfo* inputInfo : inputs)
     {
         infos.push_back(*inputInfo);
     }
     for (const TensorInfo* outputInfo : outputs)
     {
         infos.push_back(*outputInfo);
     }
  
     return m_LayerSupport->IsLayerSupported(LayerType::StandIn,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::StandIn.

◆ IsStridedSliceSupported()

bool IsStridedSliceSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const StridedSliceDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1416 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::StridedSlice,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::StridedSlice.

◆ IsSubtractionSupported()

bool IsSubtractionSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1431 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Subtraction,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Subtraction.

◆ IsSwitchSupported()

bool IsSwitchSupported	(	const TensorInfo &	input0,
		const TensorInfo &	input1,
		const TensorInfo &	output0,
		const TensorInfo &	output1,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1446 of file BackendHelper.cpp.

 {
     TensorInfos infos{input0, input1, output0, output1};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Switch,
                                             infos,
                                             BaseDescriptor(),
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Switch.

◆ IsTileSupported()

bool IsTileSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const TileDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1462 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Tile,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Tile.

◆ IsTransposeConvolution2dSupported()

bool IsTransposeConvolution2dSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const TransposeConvolution2dDescriptor &	descriptor,
		const TensorInfo &	weights,
		const Optional< TensorInfo > &	biases,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1477 of file BackendHelper.cpp.

 {
     TensorInfo biasesVal =  biases.has_value() ? biases.value() : TensorInfo();
     TensorInfos infos{input, output, weights, biasesVal};
  
     return m_LayerSupport->IsLayerSupported(LayerType::TransposeConvolution2d,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References OptionalBase::has_value(), armnn::TransposeConvolution2d, and OptionalReferenceSwitch< std::is_reference< T >::value, T >::value().

◆ IsTransposeSupported()

bool IsTransposeSupported	(	const TensorInfo &	input,
		const TensorInfo &	output,
		const TransposeDescriptor &	descriptor,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1496 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::Transpose,
                                             infos,
                                             descriptor,
                                             EmptyOptional(),
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::Transpose.

◆ IsUnidirectionalSequenceLstmSupported()

bool IsUnidirectionalSequenceLstmSupported	(	const TensorInfo &	input,
		const TensorInfo &	outputStateIn,
		const TensorInfo &	cellStateIn,
		const TensorInfo &	outputStateOut,
		const TensorInfo &	cellStateOut,
		const TensorInfo &	output,
		const LstmDescriptor &	descriptor,
		const LstmInputParamsInfo &	paramsInfo,
		Optional< std::string & >	reasonIfUnsupported = `EmptyOptional()`
	)

Definition at line 1511 of file BackendHelper.cpp.

 {
     TensorInfos infos{input, outputStateIn, cellStateIn, outputStateOut, cellStateOut, output};
  
     return m_LayerSupport->IsLayerSupported(LayerType::UnidirectionalSequenceLstm,
                                             infos,
                                             descriptor,
                                             paramsInfo,
                                             EmptyOptional(),
                                             reasonIfUnsupported);
 }

References armnn::UnidirectionalSequenceLstm.

The documentation for this class was generated from the following files:

include/armnn/BackendHelper.hpp
src/armnn/BackendHelper.cpp

Public Member Functions