src/backends/reference/workloads/RefLstmWorkload.cpp - ml/armnn - Gitiles

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

 #include "RefLstmWorkload.hpp"
 #include "Activation.hpp"
 #include "Encoders.hpp"
 #include "Decoders.hpp"
 #include "Lstm.hpp"
 #include "LstmUtils.hpp"
 #include "RefWorkloadUtils.hpp"

 namespace armnn
 {

 RefLstmWorkload::RefLstmWorkload(const LstmQueueDescriptor &descriptor, const WorkloadInfo &info)
     : BaseWorkload<LstmQueueDescriptor>(descriptor, info)
     , m_InputToInputWeightsTensor     (AssignScopedTensorHandle(descriptor.m_InputToInputWeights))
     , m_InputToForgetWeightsTensor    (AssignScopedTensorHandle(descriptor.m_InputToForgetWeights))
     , m_InputToCellWeightsTensor      (AssignScopedTensorHandle(descriptor.m_InputToCellWeights))
     , m_InputToOutputWeightsTensor    (AssignScopedTensorHandle(descriptor.m_InputToOutputWeights))
     , m_RecurrentToInputWeightsTensor (AssignScopedTensorHandle(descriptor.m_RecurrentToInputWeights))
     , m_RecurrentToForgetWeightsTensor(AssignScopedTensorHandle(descriptor.m_RecurrentToForgetWeights))
     , m_RecurrentToCellWeightsTensor  (AssignScopedTensorHandle(descriptor.m_RecurrentToCellWeights))
     , m_RecurrentToOutputWeightsTensor(AssignScopedTensorHandle(descriptor.m_RecurrentToOutputWeights))
     , m_CellToInputWeightsTensor      (AssignScopedTensorHandle(descriptor.m_CellToInputWeights))
     , m_CellToForgetWeightsTensor     (AssignScopedTensorHandle(descriptor.m_CellToForgetWeights))
     , m_CellToOutputWeightsTensor     (AssignScopedTensorHandle(descriptor.m_CellToOutputWeights))
     , m_InputGateBiasTensor           (AssignScopedTensorHandle(descriptor.m_InputGateBias))
     , m_ForgetGateBiasTensor          (AssignScopedTensorHandle(descriptor.m_ForgetGateBias))
     , m_CellBiasTensor                (AssignScopedTensorHandle(descriptor.m_CellBias))
     , m_OutputGateBiasTensor          (AssignScopedTensorHandle(descriptor.m_OutputGateBias))
     , m_ProjectionWeightsTensor       (AssignScopedTensorHandle(descriptor.m_ProjectionWeights))
     , m_ProjectionBiasTensor          (AssignScopedTensorHandle(descriptor.m_ProjectionBias))
     , m_InputLayerNormWeights         (AssignScopedTensorHandle(descriptor.m_InputLayerNormWeights))
     , m_ForgetLayerNormWeights        (AssignScopedTensorHandle(descriptor.m_ForgetLayerNormWeights))
     , m_CellLayerNormWeights          (AssignScopedTensorHandle(descriptor.m_CellLayerNormWeights))
     , m_OutputLayerNormWeights        (AssignScopedTensorHandle(descriptor.m_OutputLayerNormWeights))
 {}

 void RefLstmWorkload::Execute() const
 {
     Execute(m_Data.m_Inputs, m_Data.m_Outputs);
 }

 void RefLstmWorkload::ExecuteAsync(WorkingMemDescriptor &workingMemDescriptor)
 {
     Execute(workingMemDescriptor.m_Inputs, workingMemDescriptor.m_Outputs);
 }

 void RefLstmWorkload::Execute(std::vector<ITensorHandle*> inputs, std::vector<ITensorHandle*> outputs) const
 {
     // This is a porting of the LSTM::Eval() method in the Android code base
     // Refer to: android/frameworks/ml/nn/common/operations/LSTM.cpp

     const TensorInfo& inputInfo = GetTensorInfo(inputs[0]);
     const TensorInfo& outputInfo = GetTensorInfo(outputs[0]);

     const TensorShape& inputShape = inputInfo.GetShape();

     std::unique_ptr<Encoder<float>> outputStateOut = MakeEncoder<float>(outputInfo, outputs[1]->Map());
     std::unique_ptr<Encoder<float>> cellStateOut   = MakeEncoder<float>(outputInfo, outputs[2]->Map());
     std::unique_ptr<Encoder<float>> output         = MakeEncoder<float>(outputInfo, outputs[3]->Map());

     std::unique_ptr<Decoder<float>> cellStateOutDecoder = MakeDecoder<float>(outputInfo, outputs[2]->Map());
     std::unique_ptr<Decoder<float>> outputDecoder       = MakeDecoder<float>(outputInfo, outputs[3]->Map());

     std::unique_ptr<Decoder<float>> inputData     = MakeDecoder<float>(inputInfo, inputs[0]->Map());
     std::unique_ptr<Decoder<float>> outputStateIn = MakeDecoder<float>(inputInfo, inputs[1]->Map());
     std::unique_ptr<Decoder<float>> cellStateIn   = MakeDecoder<float>(inputInfo, inputs[2]->Map());

     const uint32_t nBatch = inputShape[0];
     const uint32_t nCell   = m_InputToOutputWeightsTensor->GetShape()[0];

     const bool useCifg      = m_Data.m_Parameters.m_CifgEnabled;
     const bool usePeephole  = m_Data.m_Parameters.m_PeepholeEnabled;
     const bool useLayerNorm = m_Data.m_Parameters.m_LayerNormEnabled;

     // Index the scratch buffers pointers to the global scratch buffer.
     std::unique_ptr<Encoder<float>> inputGateScratch  = MakeEncoder<float>(outputInfo, outputs[0]->Map());
     std::unique_ptr<Encoder<float>> cellScratch       = MakeEncoder<float>(outputInfo, outputs[0]->Map());
     std::unique_ptr<Encoder<float>> forgetGateScratch = MakeEncoder<float>(outputInfo, outputs[0]->Map());
     std::unique_ptr<Encoder<float>> outputGateScratch = MakeEncoder<float>(outputInfo, outputs[0]->Map());

     std::unique_ptr<Decoder<float>> inputGateScratchDecoder =
         MakeDecoder<float>(outputInfo, outputs[0]->Map());
     std::unique_ptr<Decoder<float>> cellScratchDecoder =
         MakeDecoder<float>(outputInfo, outputs[0]->Map());
     std::unique_ptr<Decoder<float>> forgetGateScratchDecoder =
         MakeDecoder<float>(outputInfo, outputs[0]->Map());
     std::unique_ptr<Decoder<float>> outputGateScratchDecoder =
         MakeDecoder<float>(outputInfo, outputs[0]->Map());

     if (useCifg)
     {
         *cellScratch       += (0 * nCell * nBatch);
         *forgetGateScratch += (1 * nCell * nBatch);
         *outputGateScratch += (2 * nCell * nBatch);

         *cellScratchDecoder       += (0 * nCell * nBatch);
         *forgetGateScratchDecoder += (1 * nCell * nBatch);
         *outputGateScratchDecoder += (2 * nCell * nBatch);
     }
     else
     {
         *inputGateScratch  += (0 * nCell * nBatch);
         *cellScratch       += (1 * nCell * nBatch);
         *forgetGateScratch += (2 * nCell * nBatch);
         *outputGateScratch += (3 * nCell * nBatch);

         *inputGateScratchDecoder  += (0 * nCell * nBatch);
         *cellScratchDecoder       += (1 * nCell * nBatch);
         *forgetGateScratchDecoder += (2 * nCell * nBatch);
         *outputGateScratchDecoder += (3 * nCell * nBatch);
     }

     std::unique_ptr<Decoder<float>> inputToInputWeightsTensor;
     std::unique_ptr<Decoder<float>> inputToForgetWeightsTensor = MakeDecoder<float>(
         m_InputToForgetWeightsTensor->GetTensorInfo(), m_InputToForgetWeightsTensor->GetConstTensor<void>());
     std::unique_ptr<Decoder<float>> inputToCellWeightsTensor = MakeDecoder<float>(
         m_InputToCellWeightsTensor->GetTensorInfo(), m_InputToCellWeightsTensor->GetConstTensor<void>());
     std::unique_ptr<Decoder<float>> inputToOutputWeightsTensor = MakeDecoder<float>(
         m_InputToOutputWeightsTensor->GetTensorInfo(), m_InputToOutputWeightsTensor->GetConstTensor<void>());

     std::unique_ptr<Decoder<float>> recurrentToInputWeightsTensor;
     std::unique_ptr<Decoder<float>> recurrentToForgetWeightsTensor = MakeDecoder<float>(
         m_RecurrentToForgetWeightsTensor->GetTensorInfo(), m_RecurrentToForgetWeightsTensor->GetConstTensor<void>());
     std::unique_ptr<Decoder<float>> recurrentToCellWeightsTensor = MakeDecoder<float>(
         m_RecurrentToCellWeightsTensor->GetTensorInfo(), m_RecurrentToCellWeightsTensor->GetConstTensor<void>());
     std::unique_ptr<Decoder<float>> recurrentToOutputWeightsTensor = MakeDecoder<float>(
         m_RecurrentToOutputWeightsTensor->GetTensorInfo(), m_RecurrentToOutputWeightsTensor->GetConstTensor<void>());

     std::unique_ptr<Decoder<float>> inputGateBiasTensor;
     std::unique_ptr<Decoder<float>> forgetGateBiasTensor = MakeDecoder<float>(
         m_ForgetGateBiasTensor->GetTensorInfo(), m_ForgetGateBiasTensor->GetConstTensor<void>());
     std::unique_ptr<Decoder<float>> cellBiasTensor = MakeDecoder<float>(
         m_CellBiasTensor->GetTensorInfo(), m_CellBiasTensor->GetConstTensor<void>());
     std::unique_ptr<Decoder<float>> outputGateBiasTensor = MakeDecoder<float>(
         m_OutputGateBiasTensor->GetTensorInfo(), m_OutputGateBiasTensor->GetConstTensor<void>());

     std::unique_ptr<Decoder<float>> cellToInputWeightsTensor;
     std::unique_ptr<Decoder<float>> cellToForgetWeightsTensor;
     std::unique_ptr<Decoder<float>> cellToOutputWeightsTensor;

     std::unique_ptr<Decoder<float>> projectionWeightsTensor;
     std::unique_ptr<Decoder<float>> projectionBiasTensor;

     std::unique_ptr<Decoder<float>> inputLayerNormWeights;
     std::unique_ptr<Decoder<float>> forgetLayerNormWeights;
     std::unique_ptr<Decoder<float>> cellLayerNormWeights;
     std::unique_ptr<Decoder<float>> outputLayerNormWeights;

     const TensorShape& inputToOutputWeightsShape = m_InputToOutputWeightsTensor->GetShape();
     const TensorShape& recurrentToOutputWeightsShape = m_RecurrentToOutputWeightsTensor->GetShape();

     if (useLayerNorm)
     {
         if (!useCifg)
         {
             inputLayerNormWeights = MakeDecoder<float>(
                     m_InputLayerNormWeights->GetTensorInfo(), m_InputLayerNormWeights->GetConstTensor<void>());
         }
         forgetLayerNormWeights = MakeDecoder<float>(
                 m_ForgetLayerNormWeights->GetTensorInfo(), m_ForgetLayerNormWeights->GetConstTensor<void>());
         cellLayerNormWeights = MakeDecoder<float>(
                 m_CellLayerNormWeights->GetTensorInfo(), m_CellLayerNormWeights->GetConstTensor<void>());
         outputLayerNormWeights = MakeDecoder<float>(
                 m_OutputLayerNormWeights->GetTensorInfo(), m_OutputLayerNormWeights->GetConstTensor<void>());
     }

     if (!useCifg)
     {
         inputToInputWeightsTensor = MakeDecoder<float>(
             m_InputToInputWeightsTensor->GetTensorInfo(), m_InputToInputWeightsTensor->GetConstTensor<void>());
         inputGateBiasTensor = MakeDecoder<float>(
             m_InputGateBiasTensor->GetTensorInfo(), m_InputGateBiasTensor->GetConstTensor<void>());
         recurrentToInputWeightsTensor = MakeDecoder<float>(
             m_RecurrentToInputWeightsTensor->GetTensorInfo(), m_RecurrentToInputWeightsTensor->GetConstTensor<void>());
     }

     if (usePeephole)
     {
         cellToForgetWeightsTensor = MakeDecoder<float>(
             m_CellToForgetWeightsTensor->GetTensorInfo(), m_CellToForgetWeightsTensor->GetConstTensor<void>());
         cellToOutputWeightsTensor = MakeDecoder<float>(
             m_CellToOutputWeightsTensor->GetTensorInfo(), m_CellToOutputWeightsTensor->GetConstTensor<void>());
     }

     if (!useCifg && usePeephole)
     {
         cellToInputWeightsTensor = MakeDecoder<float>(
             m_CellToInputWeightsTensor->GetTensorInfo(), m_CellToInputWeightsTensor->GetConstTensor<void>());
     }

     if (m_Data.m_Parameters.m_ProjectionEnabled)
     {
         projectionWeightsTensor = MakeDecoder<float>(
             m_ProjectionWeightsTensor->GetTensorInfo(), m_ProjectionWeightsTensor->GetConstTensor<void>());
         if (m_ProjectionBiasTensor)
         {
             projectionBiasTensor = MakeDecoder<float>(
                 m_ProjectionBiasTensor->GetTensorInfo(), m_ProjectionBiasTensor->GetConstTensor<void>());
         }
     }

     LstmImpl(m_Data.m_Parameters,
                  inputInfo,
                  outputInfo,
                  inputToOutputWeightsShape,
                  recurrentToOutputWeightsShape,
                  inputData,
                  outputStateIn,
                  cellStateIn,
                  outputStateOut,
                  cellStateOut,
                  output,
                  cellStateOutDecoder,
                  outputDecoder,
                  inputToInputWeightsTensor,
                  inputToForgetWeightsTensor,
                  inputToCellWeightsTensor,
                  inputToOutputWeightsTensor,
                  recurrentToInputWeightsTensor,
                  recurrentToForgetWeightsTensor,
                  recurrentToCellWeightsTensor,
                  recurrentToOutputWeightsTensor,
                  cellToInputWeightsTensor,
                  cellToForgetWeightsTensor,
                  cellToOutputWeightsTensor,
                  inputGateBiasTensor,
                  forgetGateBiasTensor,
                  cellBiasTensor,
                  outputGateBiasTensor,
                  projectionWeightsTensor,
                  projectionBiasTensor,
                  inputLayerNormWeights,
                  forgetLayerNormWeights,
                  cellLayerNormWeights,
                  outputLayerNormWeights,
                  inputGateScratch,
                  cellScratch,
                  forgetGateScratch,
                  outputGateScratch,
                  inputGateScratchDecoder,
                  cellScratchDecoder,
                  forgetGateScratchDecoder,
                  outputGateScratchDecoder,
                  m_LayerNormEpsilon);
 }

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

	#include "RefLstmWorkload.hpp"
	#include "Activation.hpp"
	#include "Encoders.hpp"
	#include "Decoders.hpp"
	#include "Lstm.hpp"
	#include "LstmUtils.hpp"
	#include "RefWorkloadUtils.hpp"

	namespace armnn
	{

	RefLstmWorkload::RefLstmWorkload(const LstmQueueDescriptor &descriptor, const WorkloadInfo &info)
	: BaseWorkload<LstmQueueDescriptor>(descriptor, info)
	, m_InputToInputWeightsTensor (AssignScopedTensorHandle(descriptor.m_InputToInputWeights))
	, m_InputToForgetWeightsTensor (AssignScopedTensorHandle(descriptor.m_InputToForgetWeights))
	, m_InputToCellWeightsTensor (AssignScopedTensorHandle(descriptor.m_InputToCellWeights))
	, m_InputToOutputWeightsTensor (AssignScopedTensorHandle(descriptor.m_InputToOutputWeights))
	, m_RecurrentToInputWeightsTensor (AssignScopedTensorHandle(descriptor.m_RecurrentToInputWeights))
	, m_RecurrentToForgetWeightsTensor(AssignScopedTensorHandle(descriptor.m_RecurrentToForgetWeights))
	, m_RecurrentToCellWeightsTensor (AssignScopedTensorHandle(descriptor.m_RecurrentToCellWeights))
	, m_RecurrentToOutputWeightsTensor(AssignScopedTensorHandle(descriptor.m_RecurrentToOutputWeights))
	, m_CellToInputWeightsTensor (AssignScopedTensorHandle(descriptor.m_CellToInputWeights))
	, m_CellToForgetWeightsTensor (AssignScopedTensorHandle(descriptor.m_CellToForgetWeights))
	, m_CellToOutputWeightsTensor (AssignScopedTensorHandle(descriptor.m_CellToOutputWeights))
	, m_InputGateBiasTensor (AssignScopedTensorHandle(descriptor.m_InputGateBias))
	, m_ForgetGateBiasTensor (AssignScopedTensorHandle(descriptor.m_ForgetGateBias))
	, m_CellBiasTensor (AssignScopedTensorHandle(descriptor.m_CellBias))
	, m_OutputGateBiasTensor (AssignScopedTensorHandle(descriptor.m_OutputGateBias))
	, m_ProjectionWeightsTensor (AssignScopedTensorHandle(descriptor.m_ProjectionWeights))
	, m_ProjectionBiasTensor (AssignScopedTensorHandle(descriptor.m_ProjectionBias))
	, m_InputLayerNormWeights (AssignScopedTensorHandle(descriptor.m_InputLayerNormWeights))
	, m_ForgetLayerNormWeights (AssignScopedTensorHandle(descriptor.m_ForgetLayerNormWeights))
	, m_CellLayerNormWeights (AssignScopedTensorHandle(descriptor.m_CellLayerNormWeights))
	, m_OutputLayerNormWeights (AssignScopedTensorHandle(descriptor.m_OutputLayerNormWeights))
	{}

	void RefLstmWorkload::Execute() const
	{
	Execute(m_Data.m_Inputs, m_Data.m_Outputs);
	}

	void RefLstmWorkload::ExecuteAsync(WorkingMemDescriptor &workingMemDescriptor)
	{
	Execute(workingMemDescriptor.m_Inputs, workingMemDescriptor.m_Outputs);
	}

	void RefLstmWorkload::Execute(std::vector<ITensorHandle> inputs, std::vector<ITensorHandle> outputs) const
	{
	// This is a porting of the LSTM::Eval() method in the Android code base
	// Refer to: android/frameworks/ml/nn/common/operations/LSTM.cpp

	const TensorInfo& inputInfo = GetTensorInfo(inputs[0]);
	const TensorInfo& outputInfo = GetTensorInfo(outputs[0]);

	const TensorShape& inputShape = inputInfo.GetShape();

	std::unique_ptr<Encoder<float>> outputStateOut = MakeEncoder<float>(outputInfo, outputs[1]->Map());
	std::unique_ptr<Encoder<float>> cellStateOut = MakeEncoder<float>(outputInfo, outputs[2]->Map());
	std::unique_ptr<Encoder<float>> output = MakeEncoder<float>(outputInfo, outputs[3]->Map());

	std::unique_ptr<Decoder<float>> cellStateOutDecoder = MakeDecoder<float>(outputInfo, outputs[2]->Map());
	std::unique_ptr<Decoder<float>> outputDecoder = MakeDecoder<float>(outputInfo, outputs[3]->Map());

	std::unique_ptr<Decoder<float>> inputData = MakeDecoder<float>(inputInfo, inputs[0]->Map());
	std::unique_ptr<Decoder<float>> outputStateIn = MakeDecoder<float>(inputInfo, inputs[1]->Map());
	std::unique_ptr<Decoder<float>> cellStateIn = MakeDecoder<float>(inputInfo, inputs[2]->Map());

	const uint32_t nBatch = inputShape[0];
	const uint32_t nCell = m_InputToOutputWeightsTensor->GetShape()[0];

	const bool useCifg = m_Data.m_Parameters.m_CifgEnabled;
	const bool usePeephole = m_Data.m_Parameters.m_PeepholeEnabled;
	const bool useLayerNorm = m_Data.m_Parameters.m_LayerNormEnabled;

	// Index the scratch buffers pointers to the global scratch buffer.
	std::unique_ptr<Encoder<float>> inputGateScratch = MakeEncoder<float>(outputInfo, outputs[0]->Map());
	std::unique_ptr<Encoder<float>> cellScratch = MakeEncoder<float>(outputInfo, outputs[0]->Map());
	std::unique_ptr<Encoder<float>> forgetGateScratch = MakeEncoder<float>(outputInfo, outputs[0]->Map());
	std::unique_ptr<Encoder<float>> outputGateScratch = MakeEncoder<float>(outputInfo, outputs[0]->Map());

	std::unique_ptr<Decoder<float>> inputGateScratchDecoder =
	MakeDecoder<float>(outputInfo, outputs[0]->Map());
	std::unique_ptr<Decoder<float>> cellScratchDecoder =
	MakeDecoder<float>(outputInfo, outputs[0]->Map());
	std::unique_ptr<Decoder<float>> forgetGateScratchDecoder =
	MakeDecoder<float>(outputInfo, outputs[0]->Map());
	std::unique_ptr<Decoder<float>> outputGateScratchDecoder =
	MakeDecoder<float>(outputInfo, outputs[0]->Map());

	if (useCifg)
	{
	cellScratch += (0 nCell * nBatch);
	forgetGateScratch += (1 nCell * nBatch);
	outputGateScratch += (2 nCell * nBatch);

	cellScratchDecoder += (0 nCell * nBatch);
	forgetGateScratchDecoder += (1 nCell * nBatch);
	outputGateScratchDecoder += (2 nCell * nBatch);
	}
	else
	{
	inputGateScratch += (0 nCell * nBatch);
	cellScratch += (1 nCell * nBatch);
	forgetGateScratch += (2 nCell * nBatch);
	outputGateScratch += (3 nCell * nBatch);

	inputGateScratchDecoder += (0 nCell * nBatch);
	cellScratchDecoder += (1 nCell * nBatch);
	forgetGateScratchDecoder += (2 nCell * nBatch);
	outputGateScratchDecoder += (3 nCell * nBatch);
	}

	std::unique_ptr<Decoder<float>> inputToInputWeightsTensor;
	std::unique_ptr<Decoder<float>> inputToForgetWeightsTensor = MakeDecoder<float>(
	m_InputToForgetWeightsTensor->GetTensorInfo(), m_InputToForgetWeightsTensor->GetConstTensor<void>());
	std::unique_ptr<Decoder<float>> inputToCellWeightsTensor = MakeDecoder<float>(
	m_InputToCellWeightsTensor->GetTensorInfo(), m_InputToCellWeightsTensor->GetConstTensor<void>());
	std::unique_ptr<Decoder<float>> inputToOutputWeightsTensor = MakeDecoder<float>(
	m_InputToOutputWeightsTensor->GetTensorInfo(), m_InputToOutputWeightsTensor->GetConstTensor<void>());

	std::unique_ptr<Decoder<float>> recurrentToInputWeightsTensor;
	std::unique_ptr<Decoder<float>> recurrentToForgetWeightsTensor = MakeDecoder<float>(
	m_RecurrentToForgetWeightsTensor->GetTensorInfo(), m_RecurrentToForgetWeightsTensor->GetConstTensor<void>());
	std::unique_ptr<Decoder<float>> recurrentToCellWeightsTensor = MakeDecoder<float>(
	m_RecurrentToCellWeightsTensor->GetTensorInfo(), m_RecurrentToCellWeightsTensor->GetConstTensor<void>());
	std::unique_ptr<Decoder<float>> recurrentToOutputWeightsTensor = MakeDecoder<float>(
	m_RecurrentToOutputWeightsTensor->GetTensorInfo(), m_RecurrentToOutputWeightsTensor->GetConstTensor<void>());

	std::unique_ptr<Decoder<float>> inputGateBiasTensor;
	std::unique_ptr<Decoder<float>> forgetGateBiasTensor = MakeDecoder<float>(
	m_ForgetGateBiasTensor->GetTensorInfo(), m_ForgetGateBiasTensor->GetConstTensor<void>());
	std::unique_ptr<Decoder<float>> cellBiasTensor = MakeDecoder<float>(
	m_CellBiasTensor->GetTensorInfo(), m_CellBiasTensor->GetConstTensor<void>());
	std::unique_ptr<Decoder<float>> outputGateBiasTensor = MakeDecoder<float>(
	m_OutputGateBiasTensor->GetTensorInfo(), m_OutputGateBiasTensor->GetConstTensor<void>());

	std::unique_ptr<Decoder<float>> cellToInputWeightsTensor;
	std::unique_ptr<Decoder<float>> cellToForgetWeightsTensor;
	std::unique_ptr<Decoder<float>> cellToOutputWeightsTensor;

	std::unique_ptr<Decoder<float>> projectionWeightsTensor;
	std::unique_ptr<Decoder<float>> projectionBiasTensor;

	std::unique_ptr<Decoder<float>> inputLayerNormWeights;
	std::unique_ptr<Decoder<float>> forgetLayerNormWeights;
	std::unique_ptr<Decoder<float>> cellLayerNormWeights;
	std::unique_ptr<Decoder<float>> outputLayerNormWeights;

	const TensorShape& inputToOutputWeightsShape = m_InputToOutputWeightsTensor->GetShape();
	const TensorShape& recurrentToOutputWeightsShape = m_RecurrentToOutputWeightsTensor->GetShape();

	if (useLayerNorm)
	{
	if (!useCifg)
	{
	inputLayerNormWeights = MakeDecoder<float>(
	m_InputLayerNormWeights->GetTensorInfo(), m_InputLayerNormWeights->GetConstTensor<void>());
	}
	forgetLayerNormWeights = MakeDecoder<float>(
	m_ForgetLayerNormWeights->GetTensorInfo(), m_ForgetLayerNormWeights->GetConstTensor<void>());
	cellLayerNormWeights = MakeDecoder<float>(
	m_CellLayerNormWeights->GetTensorInfo(), m_CellLayerNormWeights->GetConstTensor<void>());
	outputLayerNormWeights = MakeDecoder<float>(
	m_OutputLayerNormWeights->GetTensorInfo(), m_OutputLayerNormWeights->GetConstTensor<void>());
	}

	if (!useCifg)
	{
	inputToInputWeightsTensor = MakeDecoder<float>(
	m_InputToInputWeightsTensor->GetTensorInfo(), m_InputToInputWeightsTensor->GetConstTensor<void>());
	inputGateBiasTensor = MakeDecoder<float>(
	m_InputGateBiasTensor->GetTensorInfo(), m_InputGateBiasTensor->GetConstTensor<void>());
	recurrentToInputWeightsTensor = MakeDecoder<float>(
	m_RecurrentToInputWeightsTensor->GetTensorInfo(), m_RecurrentToInputWeightsTensor->GetConstTensor<void>());
	}

	if (usePeephole)
	{
	cellToForgetWeightsTensor = MakeDecoder<float>(
	m_CellToForgetWeightsTensor->GetTensorInfo(), m_CellToForgetWeightsTensor->GetConstTensor<void>());
	cellToOutputWeightsTensor = MakeDecoder<float>(
	m_CellToOutputWeightsTensor->GetTensorInfo(), m_CellToOutputWeightsTensor->GetConstTensor<void>());
	}

	if (!useCifg && usePeephole)
	{
	cellToInputWeightsTensor = MakeDecoder<float>(
	m_CellToInputWeightsTensor->GetTensorInfo(), m_CellToInputWeightsTensor->GetConstTensor<void>());
	}

	if (m_Data.m_Parameters.m_ProjectionEnabled)
	{
	projectionWeightsTensor = MakeDecoder<float>(
	m_ProjectionWeightsTensor->GetTensorInfo(), m_ProjectionWeightsTensor->GetConstTensor<void>());
	if (m_ProjectionBiasTensor)
	{
	projectionBiasTensor = MakeDecoder<float>(
	m_ProjectionBiasTensor->GetTensorInfo(), m_ProjectionBiasTensor->GetConstTensor<void>());
	}
	}

	LstmImpl(m_Data.m_Parameters,
	inputInfo,
	outputInfo,
	inputToOutputWeightsShape,
	recurrentToOutputWeightsShape,
	inputData,
	outputStateIn,
	cellStateIn,
	outputStateOut,
	cellStateOut,
	output,
	cellStateOutDecoder,
	outputDecoder,
	inputToInputWeightsTensor,
	inputToForgetWeightsTensor,
	inputToCellWeightsTensor,
	inputToOutputWeightsTensor,
	recurrentToInputWeightsTensor,
	recurrentToForgetWeightsTensor,
	recurrentToCellWeightsTensor,
	recurrentToOutputWeightsTensor,
	cellToInputWeightsTensor,
	cellToForgetWeightsTensor,
	cellToOutputWeightsTensor,
	inputGateBiasTensor,
	forgetGateBiasTensor,
	cellBiasTensor,
	outputGateBiasTensor,
	projectionWeightsTensor,
	projectionBiasTensor,
	inputLayerNormWeights,
	forgetLayerNormWeights,
	cellLayerNormWeights,
	outputLayerNormWeights,
	inputGateScratch,
	cellScratch,
	forgetGateScratch,
	outputGateScratch,
	inputGateScratchDecoder,
	cellScratchDecoder,
	forgetGateScratchDecoder,
	outputGateScratchDecoder,
	m_LayerNormEpsilon);
	}

	} //namespace armnn