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|
//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include "ClLayerSupport.hpp"
#include "ClBackendId.hpp"
#include <armnn/Descriptors.hpp>
#include <InternalTypes.hpp>
#include <LayerSupportCommon.hpp>
#include <backendsCommon/BackendRegistry.hpp>
#include <boost/core/ignore_unused.hpp>
#if defined(ARMCOMPUTECL_ENABLED)
#include <aclCommon/ArmComputeUtils.hpp>
#include "workloads/ClAdditionWorkload.hpp"
#include "workloads/ClActivationWorkload.hpp"
#include "workloads/ClBatchNormalizationFloatWorkload.hpp"
#include "workloads/ClBatchToSpaceNdWorkload.hpp"
#include "workloads/ClConvertFp16ToFp32Workload.hpp"
#include "workloads/ClConvertFp32ToFp16Workload.hpp"
#include "workloads/ClConvolution2dWorkload.hpp"
#include "workloads/ClDequantizeWorkload.hpp"
#include "workloads/ClDepthwiseConvolutionWorkload.hpp"
#include "workloads/ClDivisionFloatWorkload.hpp"
#include "workloads/ClFullyConnectedWorkload.hpp"
#include "workloads/ClGreaterWorkload.hpp"
#include "workloads/ClL2NormalizationFloatWorkload.hpp"
#include "workloads/ClLstmFloatWorkload.hpp"
#include "workloads/ClMaximumWorkload.hpp"
#include "workloads/ClMeanWorkload.hpp"
#include "workloads/ClConcatWorkload.hpp"
#include "workloads/ClMinimumWorkload.hpp"
#include "workloads/ClMultiplicationWorkload.hpp"
#include "workloads/ClNormalizationFloatWorkload.hpp"
#include "workloads/ClPadWorkload.hpp"
#include "workloads/ClPermuteWorkload.hpp"
#include "workloads/ClPooling2dWorkload.hpp"
#include "workloads/ClPreluWorkload.hpp"
#include "workloads/ClReshapeWorkload.hpp"
#include "workloads/ClResizeWorkload.hpp"
#include "workloads/ClQuantizedLstmWorkload.hpp"
#include "workloads/ClQuantizeWorkload.hpp"
#include "workloads/ClSoftmaxBaseWorkload.hpp"
#include "workloads/ClSpaceToBatchNdWorkload.hpp"
#include "workloads/ClSpaceToDepthWorkload.hpp"
#include "workloads/ClSplitterWorkload.hpp"
#include "workloads/ClStackWorkload.hpp"
#include "workloads/ClStridedSliceWorkload.hpp"
#include "workloads/ClSubtractionWorkload.hpp"
#include "workloads/ClTransposeConvolution2dWorkload.hpp"
#endif
using namespace boost;
namespace armnn
{
namespace
{
template<unsigned int FilterSize>
bool IsMatchingSize2d(const TensorInfo& weightInfo)
{
// Width & Height must match.
return (weightInfo.GetShape()[3] == FilterSize) && (weightInfo.GetShape()[2] == FilterSize);
}
template<uint32_t ValidStride>
bool IsMatchingStride(uint32_t actualStride)
{
return ValidStride == actualStride;
}
template<uint32_t FirstStride, uint32_t SecondStride, uint32_t... ValidStrides>
bool IsMatchingStride(uint32_t actualStride)
{
return IsMatchingStride<FirstStride>(actualStride) || IsMatchingStride<SecondStride, ValidStrides...>(actualStride);
}
bool IsClBackendSupported(Optional<std::string&> reasonIfUnsupported)
{
#if defined(ARMCOMPUTECL_ENABLED)
return true;
#else
if (reasonIfUnsupported)
{
reasonIfUnsupported.value() = "The armnn library has been built without CL support";
}
return false;
#endif
}
#if defined(ARMCOMPUTECL_ENABLED)
#define FORWARD_CL_LAYER_SUPPORT_FUNC(expr) (expr)
#else
#define FORWARD_CL_LAYER_SUPPORT_FUNC(expr) IsClBackendSupported(reasonIfUnsupported)
#endif
#if defined(ARMCOMPUTECL_ENABLED)
template<class FuncType, class... Args>
inline bool IsWorkloadSupported(FuncType&& func, Optional<std::string&> reasonIfUnsupported, Args&&... args)
{
arm_compute::Status aclStatus = func(std::forward<Args>(args)...);
const bool supported = (aclStatus.error_code() == arm_compute::ErrorCode::OK);
if (!supported && reasonIfUnsupported)
{
reasonIfUnsupported.value() = aclStatus.error_description();
}
return supported;
}
#define FORWARD_WORKLOAD_VALIDATE_FUNC(func, reasonIfUnsupported, ...) \
return IsWorkloadSupported(func, reasonIfUnsupported, __VA_ARGS__);
#else
#define FORWARD_WORKLOAD_VALIDATE_FUNC(func, reasonIfUnsupported, ...) \
return IsClBackendSupported(reasonIfUnsupported);
#endif
template<typename FloatFunc, typename Uint8Func, typename ... Params>
bool IsSupportedForDataTypeCl(Optional<std::string&> reasonIfUnsupported,
DataType dataType,
FloatFunc floatFuncPtr,
Uint8Func uint8FuncPtr,
Params&&... params)
{
return IsClBackendSupported(reasonIfUnsupported) &&
IsSupportedForDataTypeGeneric(reasonIfUnsupported,
dataType,
floatFuncPtr,
floatFuncPtr,
uint8FuncPtr,
&FalseFunc<>,
&FalseFunc<>,
std::forward<Params>(params)...);
}
} // anonymous namespace
bool ClLayerSupport::IsActivationSupported(const TensorInfo& input,
const TensorInfo& output,
const ActivationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClActivationWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::IsAdditionSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClAdditionValidate,
reasonIfUnsupported,
input0,
input1,
output);
}
bool ClLayerSupport::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) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClBatchNormalizationValidate,
reasonIfUnsupported,
input,
output,
mean,
var,
beta,
gamma,
descriptor);
}
bool ClLayerSupport::IsBatchToSpaceNdSupported(const TensorInfo& input,
const TensorInfo& output,
const BatchToSpaceNdDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClBatchToSpaceNdWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::IsConcatSupported(const std::vector<const TensorInfo*> inputs,
const TensorInfo& output,
const ConcatDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
if (descriptor.GetNumDimensions() <= descriptor.GetConcatAxis())
{
SetValueChecked(reasonIfUnsupported, "Cl Concat: Concat axis > Number of dimensions.");
return false;
}
unsigned int concatInnerAxis = (descriptor.GetNumDimensions() - descriptor.GetConcatAxis()) - 1;
if(concatInnerAxis < 3) // Width, height, or channels
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClConcatWorkloadValidate,
reasonIfUnsupported,
inputs,
output,
descriptor);
}
else if (concatInnerAxis == 3)
{
// We rely on the sub-tensor optimization to handle the batch dimension for 4D tensors. If we can't use
// sub-tensors for this then we can't support it. Here is where we check that the sub-tensors will work.
for (auto& input : inputs)
{
if (input && !output.IsTypeSpaceMatch(*input)) // Cannot use sub-tensors if the types are not same space
{
SetValueChecked(reasonIfUnsupported, "Cl Concat: Types and quantization parameters must match.");
return false;
}
}
return true; // Sub-tensors support concat along batch
}
else // > 4 dimensions not supported.
{
SetValueChecked(reasonIfUnsupported, "Cl Concat: Maximum of 4 dimensions supported.");
return false;
}
}
bool ClLayerSupport::IsConstantSupported(const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
return IsSupportedForDataTypeCl(reasonIfUnsupported,
output.GetDataType(),
&TrueFunc<>,
&TrueFunc<>);
}
bool ClLayerSupport::IsConvertFp16ToFp32Supported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClConvertFp16ToFp32WorkloadValidate,
reasonIfUnsupported,
input,
output);
}
bool ClLayerSupport::IsConvertFp32ToFp16Supported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClConvertFp32ToFp16WorkloadValidate,
reasonIfUnsupported,
input,
output);
}
bool ClLayerSupport::IsConvolution2dSupported(const TensorInfo& input,
const TensorInfo& output,
const Convolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClConvolution2dWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor,
weights,
biases);
}
bool ClLayerSupport::IsDequantizeSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClDequantizeWorkloadValidate,
reasonIfUnsupported,
input,
output);
}
bool ClLayerSupport::IsDepthwiseConvolutionSupported(const TensorInfo& input,
const TensorInfo& output,
const DepthwiseConvolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClDepthwiseConvolutionWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor,
weights,
biases);
}
bool ClLayerSupport::IsDilatedDepthwiseConvolutionSupported(const TensorInfo& input,
const TensorInfo& output,
const DepthwiseConvolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClDepthwiseConvolutionWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor,
weights,
biases);
}
bool ClLayerSupport::IsDivisionSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClDivisionWorkloadValidate,
reasonIfUnsupported,
input0,
input1,
output);
}
bool ClLayerSupport::IsFloorSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(output);
return IsClBackendSupported(reasonIfUnsupported) &&
IsSupportedForDataTypeGeneric(reasonIfUnsupported,
input.GetDataType(),
&FalseFuncF16<>,
&TrueFunc<>,
&FalseFuncU8<>,
&FalseFuncI32<>,
&FalseFuncU8<>);
}
bool ClLayerSupport::IsFullyConnectedSupported(const TensorInfo& input,
const TensorInfo& output,
const TensorInfo& weights,
const TensorInfo& biases,
const FullyConnectedDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClFullyConnectedWorkloadValidate,
reasonIfUnsupported,
input,
output,
weights,
biases,
descriptor);
}
bool ClLayerSupport::IsGreaterSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClGreaterWorkloadValidate,
reasonIfUnsupported,
input0,
input1,
output);
}
bool ClLayerSupport::IsInputSupported(const TensorInfo& input,
Optional<std::string&> reasonIfUnsupported) const
{
return IsClBackendSupported(reasonIfUnsupported);
}
bool ClLayerSupport::IsL2NormalizationSupported(const TensorInfo& input,
const TensorInfo& output,
const L2NormalizationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClL2NormalizationWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::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) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClLstmFloatWorkloadValidate,
reasonIfUnsupported,
input,
outputStateIn,
cellStateIn,
scratchBuffer,
outputStateOut,
cellStateOut,
output,
descriptor,
paramsInfo);
}
bool ClLayerSupport::IsMaximumSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClMaximumWorkloadValidate,
reasonIfUnsupported,
input0,
input1,
output);
}
bool ClLayerSupport::IsMeanSupported(const TensorInfo& input,
const TensorInfo& output,
const MeanDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClMeanValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::IsMergerSupported(const std::vector<const TensorInfo*> inputs,
const TensorInfo& output,
const MergerDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
return IsConcatSupported(inputs, output, descriptor, reasonIfUnsupported);
}
bool ClLayerSupport::IsMinimumSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClMinimumWorkloadValidate,
reasonIfUnsupported,
input0,
input1,
output);
}
bool ClLayerSupport::IsMultiplicationSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClMultiplicationWorkloadValidate,
reasonIfUnsupported,
input0,
input1,
output);
}
bool ClLayerSupport::IsNormalizationSupported(const TensorInfo& input,
const TensorInfo& output,
const NormalizationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClNormalizationWorkloadValidate, reasonIfUnsupported, input, output, descriptor);
}
bool ClLayerSupport::IsOutputSupported(const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
return IsClBackendSupported(reasonIfUnsupported);
}
bool ClLayerSupport::IsPadSupported(const TensorInfo& input,
const TensorInfo& output,
const PadDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClPadValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::IsPermuteSupported(const TensorInfo& input,
const TensorInfo& output,
const PermuteDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClPermuteWorkloadValidate, reasonIfUnsupported, input, output, descriptor);
}
bool ClLayerSupport::IsPooling2dSupported(const TensorInfo& input,
const TensorInfo& output,
const Pooling2dDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClPooling2dWorkloadValidate, reasonIfUnsupported, input, output, descriptor);
}
bool ClLayerSupport::IsPreluSupported(const armnn::TensorInfo &input,
const armnn::TensorInfo &alpha,
const armnn::TensorInfo &output,
armnn::Optional<std::string &> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClPreluWorkloadValidate, reasonIfUnsupported, input, alpha, output);
}
bool ClLayerSupport::IsQuantizedLstmSupported(const TensorInfo& input,
const TensorInfo& previousCellStateIn,
const TensorInfo& previousOutputIn,
const TensorInfo& cellStateOut,
const TensorInfo& output,
const QuantizedLstmInputParamsInfo& paramsInfo,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClQuantizedLstmWorkloadValidate,
reasonIfUnsupported,
input,
previousCellStateIn,
previousOutputIn,
cellStateOut,
output,
paramsInfo);
}
bool ClLayerSupport::IsQuantizeSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClQuantizeWorkloadValidate,
reasonIfUnsupported,
input,
output);
}
bool ClLayerSupport::IsReshapeSupported(const TensorInfo& input,
const TensorInfo& output,
const ReshapeDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
FORWARD_WORKLOAD_VALIDATE_FUNC(ClReshapeWorkloadValidate, reasonIfUnsupported, input, output);
}
bool ClLayerSupport::IsResizeSupported(const TensorInfo& input,
const TensorInfo& output,
const ResizeDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClResizeWorkloadValidate, reasonIfUnsupported, input, output, descriptor);
}
bool ClLayerSupport::IsResizeBilinearSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
ResizeDescriptor descriptor;
descriptor.m_Method = ResizeMethod::Bilinear;
descriptor.m_DataLayout = DataLayout::NCHW;
const TensorShape& outputShape = output.GetShape();
descriptor.m_TargetHeight = outputShape[2];
descriptor.m_TargetWidth = outputShape[3];
return IsResizeSupported(input, output, descriptor, reasonIfUnsupported);
}
bool ClLayerSupport::IsSoftmaxSupported(const TensorInfo& input,
const TensorInfo& output,
const SoftmaxDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClSoftmaxWorkloadValidate, reasonIfUnsupported, input, output, descriptor);
}
bool ClLayerSupport::IsSpaceToBatchNdSupported(const TensorInfo& input,
const TensorInfo& output,
const SpaceToBatchNdDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClSpaceToBatchNdWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::IsSpaceToDepthSupported(const TensorInfo& input,
const TensorInfo& output,
const SpaceToDepthDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClSpaceToDepthWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::IsSplitterSupported(const TensorInfo& input,
const ViewsDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
return IsSupportedForDataTypeCl(reasonIfUnsupported,
input.GetDataType(),
&TrueFunc<>,
&TrueFunc<>);
}
bool ClLayerSupport::IsSplitterSupported(const TensorInfo& input,
const std::vector<std::reference_wrapper<TensorInfo>>& outputs,
const ViewsDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
#if defined(ARMCOMPUTECL_ENABLED)
// Split along the last dimension, cannot use sub-tensors
// as width and height of the sub-tensors do not match
// the width and height of the parent tensor
// in case of input with more than 2D.
std::set<unsigned int> splitAxis = ComputeSplitAxis(descriptor, input.GetShape());
if (descriptor.GetNumDimensions() > 2 && splitAxis.size() == 1 &&
*splitAxis.begin() == descriptor.GetNumDimensions() - 1 )
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClSplitterWorkloadValidate,
reasonIfUnsupported,
input,
outputs,
*splitAxis.begin());
}
#endif
for (auto output : outputs)
{
if (!input.IsTypeSpaceMatch(output)) // Cannot use sub-tensors if the types are not same space
{
SetValueChecked(reasonIfUnsupported, "Cl Splitter: Types and quantization parameters must match.");
return false;
}
}
return true;
}
bool ClLayerSupport::IsStackSupported(const std::vector<const TensorInfo*>& inputs,
const TensorInfo& output,
const StackDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClStackWorkloadValidate,
reasonIfUnsupported,
inputs,
output,
descriptor);
}
bool ClLayerSupport::IsStridedSliceSupported(const TensorInfo& input,
const TensorInfo& output,
const StridedSliceDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClStridedSliceWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor);
}
bool ClLayerSupport::IsSubtractionSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClSubtractionValidate,
reasonIfUnsupported,
input0,
input1,
output);
}
bool ClLayerSupport::IsTransposeConvolution2dSupported(const TensorInfo& input,
const TensorInfo& output,
const TransposeConvolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
FORWARD_WORKLOAD_VALIDATE_FUNC(ClTransposeConvolution2dWorkloadValidate,
reasonIfUnsupported,
input,
output,
descriptor,
weights,
biases);
}
} // namespace armnn
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