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Diffstat (limited to 'src/backends/backendsCommon/test/LstmTestImpl.hpp')
| -rw-r--r-- | src/backends/backendsCommon/test/LstmTestImpl.hpp | 1150 |
1 files changed, 1150 insertions, 0 deletions
diff --git a/src/backends/backendsCommon/test/LstmTestImpl.hpp b/src/backends/backendsCommon/test/LstmTestImpl.hpp new file mode 100644 index 0000000000..758f294d48 --- /dev/null +++ b/src/backends/backendsCommon/test/LstmTestImpl.hpp @@ -0,0 +1,1150 @@ +// +// Copyright © 2017 Arm Ltd. All rights reserved. +// SPDX-License-Identifier: MIT +// +#pragma once + +#include "QuantizeHelper.hpp" + +#include <armnn/ArmNN.hpp> +#include <armnn/Tensor.hpp> +#include <armnn/TypesUtils.hpp> + +#include <test/TensorHelpers.hpp> + +#include <backendsCommon/CpuTensorHandle.hpp> +#include <backendsCommon/WorkloadFactory.hpp> + +LayerTestResult<float, 2> LstmNoCifgNoPeepholeNoProjectionTestImpl(armnn::IWorkloadFactory& workloadFactory, + const boost::multi_array<float, 2>& input, + const boost::multi_array<float, 2>& outputExpected) +{ + unsigned int batchSize = boost::numeric_cast<unsigned int>(input.shape()[0]); + unsigned int inputSize = boost::numeric_cast<unsigned int>(input.shape()[1]); + unsigned int outputSize = boost::numeric_cast<unsigned int>(outputExpected.shape()[1]); + // cellSize and outputSize have the same size when there is no projection. + unsigned numUnits = outputSize; + + + armnn::TensorInfo inputTensorInfo({batchSize , inputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo cellStateInTensorInfo({batchSize , numUnits}, armnn::GetDataType<float>()); + armnn::TensorInfo outputStateInTensorInfo({batchSize , outputSize}, armnn::GetDataType<float>()); + + + armnn::TensorInfo scratchBufferTensorInfo({batchSize, numUnits * 3}, armnn::GetDataType<float>()); + armnn::TensorInfo cellStateOutTensorInfo({batchSize, numUnits}, armnn::GetDataType<float>()); + armnn::TensorInfo outputStateOutTensorInfo({batchSize, outputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo outputTensorInfo({batchSize, outputSize}, armnn::GetDataType<float>()); + + + LayerTestResult<float, 2> ret(outputTensorInfo); + + std::vector<float> inputVector; + inputVector.assign(input.data(), input.data() + (batchSize * inputSize)); + auto inputTensor = MakeTensor<float,2>(inputTensorInfo, inputVector); + + std::vector<float> cellStateInVector(batchSize * numUnits, 0.f); + auto cellStateInTensor = MakeTensor<float,2>(cellStateInTensorInfo, cellStateInVector); + + std::vector<float> outputStateInVector(batchSize * outputSize, 0.f); + auto outputStateInTensor = MakeTensor<float,2>(outputStateInTensorInfo, outputStateInVector); + + std::vector<float> scratchBufferVector(batchSize * numUnits * 3, 0.f); + auto scratchBufferTensor = MakeTensor<float,2>(scratchBufferTensorInfo, scratchBufferVector); + + std::vector<float> outputStateOutVector(batchSize * outputSize, 0.f); + auto outputStateOutTensor = MakeTensor<float,2>(outputStateOutTensorInfo, outputStateOutVector); + + std::vector<float> cellStateOutVector(batchSize * numUnits, 0.f); + auto cellStateOutTensor = MakeTensor<float,2>(cellStateOutTensorInfo, cellStateOutVector); + + std::vector<float> outputVector; + outputVector.assign(outputExpected.data(), outputExpected.data() + (batchSize * outputSize)); + ret.outputExpected = MakeTensor<float, 2>(outputTensorInfo, outputVector); + + std::unique_ptr<armnn::ITensorHandle> inputHandle = workloadFactory.CreateTensorHandle(inputTensorInfo); + std::unique_ptr<armnn::ITensorHandle> cellStateInHandle = + workloadFactory.CreateTensorHandle(cellStateInTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputStateInHandle = + workloadFactory.CreateTensorHandle(outputStateInTensorInfo); + + std::unique_ptr<armnn::ITensorHandle> scratchHandle = workloadFactory.CreateTensorHandle(scratchBufferTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputStateOutHandle = + workloadFactory.CreateTensorHandle(outputStateOutTensorInfo); + std::unique_ptr<armnn::ITensorHandle> cellStateOutHandle = + workloadFactory.CreateTensorHandle(cellStateOutTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputHandle = workloadFactory.CreateTensorHandle(outputTensorInfo); + + + armnn::LstmQueueDescriptor data; + armnn::WorkloadInfo info; + + AddInputToWorkload(data, info, inputTensorInfo, inputHandle.get()); + AddInputToWorkload(data, info, outputStateInTensorInfo, outputStateInHandle.get()); + AddInputToWorkload(data, info, cellStateInTensorInfo, cellStateInHandle.get()); + + AddOutputToWorkload(data, info, scratchBufferTensorInfo, scratchHandle.get()); + AddOutputToWorkload(data, info, outputStateOutTensorInfo, outputStateOutHandle.get()); + AddOutputToWorkload(data, info, cellStateOutTensorInfo, cellStateOutHandle.get()); + AddOutputToWorkload(data, info, outputTensorInfo, outputHandle.get()); + + armnn::TensorInfo tensorInfo4({numUnits}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfo8({numUnits, 2}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfo16({numUnits, 4}, armnn::GetDataType<float>()); + + auto inputToInputWeights = MakeTensor<float, 2>(tensorInfo8, {-0.45018822f, -0.02338299f, -0.0870589f, + -0.34550029f, 0.04266912f, -0.15680569f, + -0.34856534f, 0.43890524f}); + + auto inputToForgetWeights = MakeTensor<float, 2>(tensorInfo8, {0.09701663f, 0.20334584f, -0.50592935f, + -0.31343272f, -0.40032279f, 0.44781327f, + 0.01387155f, -0.35593212f}); + + auto inputToCellWeights = MakeTensor<float, 2>(tensorInfo8, {-0.50013041f, 0.1370284f, 0.11810488f, 0.2013163f, + -0.20583314f, 0.44344562f, 0.22077113f, + -0.29909778f}); + + auto inputToOutputWeights = MakeTensor<float, 2>(tensorInfo8, {-0.25065863f, -0.28290087f, 0.04613829f, + 0.40525138f, 0.44272184f, 0.03897077f, + -0.1556896f, 0.19487578f}); + + auto recurrentToInputWeights = MakeTensor<float, 2>(tensorInfo16, {-0.0063535f, -0.2042388f, 0.31454784f, + -0.35746509f, 0.28902304f, 0.08183324f, + -0.16555229f, 0.02286911f, -0.13566875f, + 0.03034258f, 0.48091322f, -0.12528998f, + 0.24077177f, -0.51332325f, -0.33502164f, + 0.10629296f}); + + auto recurrentToForgetWeights = MakeTensor<float, 2>(tensorInfo16, {-0.48684245f, -0.06655136f, 0.42224967f, + 0.2112639f, 0.27654213f, 0.20864892f, + -0.07646349f, 0.45877004f, 0.00141793f, + -0.14609534f, 0.36447752f, 0.09196436f, + 0.28053468f, 0.01560611f, -0.20127171f, + -0.01140004f}); + + auto recurrentToCellWeights = MakeTensor<float, 2>(tensorInfo16, {-0.3407414f, 0.24443203f, -0.2078532f, + 0.26320225f, 0.05695659f, -0.00123841f, + -0.4744786f, -0.35869038f, -0.06418842f, + -0.13502428f, -0.501764f, 0.22830659f, + -0.46367589f, 0.26016325f, -0.03894562f, + -0.16368064f}); + + auto recurrentToOutputWeights = MakeTensor<float, 2>(tensorInfo16, {0.43385774f, -0.17194885f, 0.2718237f, + 0.09215671f, 0.24107647f, -0.39835793f, + 0.18212086f, 0.01301402f, 0.48572797f, + -0.50656658f, 0.20047462f, -0.20607421f, + -0.51818722f, -0.15390486f, 0.0468148f, + 0.39922136f}); + + auto cellToInputWeights = MakeTensor<float, 1>(tensorInfo4, {0., 0., 0., 0.}); + + auto inputGateBias = MakeTensor<float, 1>(tensorInfo4, {0., 0., 0., 0.}); + + auto forgetGateBias = MakeTensor<float, 1>(tensorInfo4, {1., 1., 1., 1.}); + + auto cellBias = MakeTensor<float, 1>(tensorInfo4, {0., 0., 0., 0.}); + + auto outputGateBias = MakeTensor<float, 1>(tensorInfo4, {0., 0., 0., 0.}); + + armnn::ScopedCpuTensorHandle inputToInputWeightsTensor(tensorInfo8); + armnn::ScopedCpuTensorHandle inputToForgetWeightsTensor(tensorInfo8); + armnn::ScopedCpuTensorHandle inputToCellWeightsTensor(tensorInfo8); + armnn::ScopedCpuTensorHandle inputToOutputWeightsTensor(tensorInfo8); + armnn::ScopedCpuTensorHandle recurrentToForgetWeightsTensor(tensorInfo16); + armnn::ScopedCpuTensorHandle recurrentToInputWeightsTensor(tensorInfo16); + armnn::ScopedCpuTensorHandle recurrentToCellWeightsTensor(tensorInfo16); + armnn::ScopedCpuTensorHandle recurrentToOutputWeightsTensor(tensorInfo16); + armnn::ScopedCpuTensorHandle cellToInputWeightsTensor(tensorInfo4); + armnn::ScopedCpuTensorHandle inputGateBiasTensor(tensorInfo4); + armnn::ScopedCpuTensorHandle forgetGateBiasTensor(tensorInfo4); + armnn::ScopedCpuTensorHandle cellBiasTensor(tensorInfo4); + armnn::ScopedCpuTensorHandle outputGateBiasTensor(tensorInfo4); + + AllocateAndCopyDataToITensorHandle(&inputToInputWeightsTensor, &inputToInputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToForgetWeightsTensor, &inputToForgetWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToCellWeightsTensor, &inputToCellWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToOutputWeightsTensor, &inputToOutputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToInputWeightsTensor, &recurrentToInputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToForgetWeightsTensor, &recurrentToForgetWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToCellWeightsTensor, &recurrentToCellWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToOutputWeightsTensor, &recurrentToOutputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&cellToInputWeightsTensor, &cellToInputWeights[0]); + AllocateAndCopyDataToITensorHandle(&inputGateBiasTensor, &inputGateBias[0]); + AllocateAndCopyDataToITensorHandle(&forgetGateBiasTensor, &forgetGateBias[0]); + AllocateAndCopyDataToITensorHandle(&cellBiasTensor, &cellBias[0]); + AllocateAndCopyDataToITensorHandle(&outputGateBiasTensor, &outputGateBias[0]); + + data.m_InputToInputWeights = &inputToInputWeightsTensor; + data.m_InputToForgetWeights = &inputToForgetWeightsTensor; + data.m_InputToCellWeights = &inputToCellWeightsTensor; + data.m_InputToOutputWeights = &inputToOutputWeightsTensor; + data.m_RecurrentToInputWeights = &recurrentToInputWeightsTensor; + data.m_RecurrentToForgetWeights = &recurrentToForgetWeightsTensor; + data.m_RecurrentToCellWeights = &recurrentToCellWeightsTensor; + data.m_RecurrentToOutputWeights = &recurrentToOutputWeightsTensor; + data.m_CellToInputWeights = &cellToInputWeightsTensor; + data.m_InputGateBias = &inputGateBiasTensor; + data.m_ForgetGateBias = &forgetGateBiasTensor; + data.m_CellBias = &cellBiasTensor; + data.m_OutputGateBias = &outputGateBiasTensor; + + + // Flags to set test configuration + data.m_Parameters.m_ActivationFunc = 4; + data.m_Parameters.m_CifgEnabled = false; + data.m_Parameters.m_PeepholeEnabled = false; + data.m_Parameters.m_ProjectionEnabled = false; + + + std::unique_ptr<armnn::IWorkload> workload = workloadFactory.CreateLstm(data, info); + inputHandle->Allocate(); + outputStateInHandle->Allocate(); + cellStateInHandle->Allocate(); + + scratchHandle->Allocate(); + outputStateOutHandle->Allocate(); + cellStateOutHandle->Allocate(); + outputHandle->Allocate(); + + CopyDataToITensorHandle(inputHandle.get(), &inputTensor[0][0]); + CopyDataToITensorHandle(outputStateInHandle.get(), &outputStateInTensor[0][0]); + CopyDataToITensorHandle(cellStateInHandle.get(), &cellStateInTensor[0][0]); + + workloadFactory.Finalize(); + workload->Execute(); + + CopyDataFromITensorHandle(&ret.output[0][0], outputHandle.get()); + + return ret; +} + + +LayerTestResult<float, 2> +LstmLayerFloat32NoCifgWithPeepholeWithProjectionTestImpl(armnn::IWorkloadFactory& workloadFactory, + const boost::multi_array<float, 2>& input, + const boost::multi_array<float, 2>& outputExpected) { + + unsigned int batchSize = 2; + unsigned int outputSize = 16; + unsigned int inputSize = 5; + unsigned numUnits = 20; + + armnn::TensorInfo inputTensorInfo({batchSize , inputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo cellStateInTensorInfo({batchSize , numUnits}, armnn::GetDataType<float>()); + armnn::TensorInfo outputStateInTensorInfo({batchSize , outputSize}, armnn::GetDataType<float>()); + + // Scratch buffer size without CIFG [batchSize, numUnits * 3] + armnn::TensorInfo scratchBufferTensorInfo({batchSize, numUnits * 3}, armnn::GetDataType<float>()); + armnn::TensorInfo cellStateOutTensorInfo({batchSize, numUnits}, armnn::GetDataType<float>()); + armnn::TensorInfo outputStateOutTensorInfo({batchSize, outputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo outputTensorInfo({batchSize, outputSize}, armnn::GetDataType<float>()); + + LayerTestResult<float, 2> ret(outputTensorInfo); + + std::vector<float> inputVector; + inputVector.assign(input.data(), input.data() + (batchSize * inputSize)); + auto inputTensor = MakeTensor<float,2>(inputTensorInfo, inputVector); + + std::vector<float> cellStateInVector(batchSize * numUnits, 0.f); + auto cellStateInTensor = MakeTensor<float,2>(cellStateInTensorInfo, cellStateInVector); + + std::vector<float> outputStateInVector(batchSize * outputSize, 0.f); + auto outputStateInTensor = MakeTensor<float,2>(outputStateInTensorInfo, outputStateInVector); + + std::vector<float> scratchBufferVector(batchSize * numUnits * 3, 0.f); + auto scratchBufferTensor = MakeTensor<float,2>(scratchBufferTensorInfo, scratchBufferVector); + + std::vector<float> outputStateOutVector(batchSize * outputSize, 0.f); + auto outputStateOutTensor = MakeTensor<float,2>(outputStateOutTensorInfo, outputStateOutVector); + + std::vector<float> cellStateOutVector(batchSize * numUnits, 0.f); + auto cellStateOutTensor = MakeTensor<float,2>(cellStateOutTensorInfo, cellStateOutVector); + + std::vector<float> outputVector; + outputVector.assign(outputExpected.data(), outputExpected.data() + (batchSize * outputSize)); + ret.outputExpected = MakeTensor<float, 2>(outputTensorInfo, outputVector); + + std::unique_ptr<armnn::ITensorHandle> inputHandle = workloadFactory.CreateTensorHandle(inputTensorInfo); + std::unique_ptr<armnn::ITensorHandle> cellStateInHandle = + workloadFactory.CreateTensorHandle(cellStateInTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputStateInHandle = + workloadFactory.CreateTensorHandle(outputStateInTensorInfo); + + std::unique_ptr<armnn::ITensorHandle> scratchHandle = workloadFactory.CreateTensorHandle(scratchBufferTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputStateOutHandle = + workloadFactory.CreateTensorHandle(outputStateOutTensorInfo); + std::unique_ptr<armnn::ITensorHandle> cellStateOutHandle = + workloadFactory.CreateTensorHandle(cellStateOutTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputHandle = workloadFactory.CreateTensorHandle(outputTensorInfo); + + armnn::LstmQueueDescriptor data; + armnn::WorkloadInfo info; + + AddInputToWorkload(data, info, inputTensorInfo, inputHandle.get()); + AddInputToWorkload(data, info, outputStateInTensorInfo, outputStateInHandle.get()); + AddInputToWorkload(data, info, cellStateInTensorInfo, cellStateInHandle.get()); + + AddOutputToWorkload(data, info, scratchBufferTensorInfo, scratchHandle.get()); + AddOutputToWorkload(data, info, outputStateOutTensorInfo, outputStateOutHandle.get()); + AddOutputToWorkload(data, info, cellStateOutTensorInfo, cellStateOutHandle.get()); + AddOutputToWorkload(data, info, outputTensorInfo, outputHandle.get()); + + armnn::TensorInfo tensorInfo16({outputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfo20({numUnits}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfo20x5({numUnits, inputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfo20x16({numUnits, outputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfo16x20({outputSize, numUnits}, armnn::GetDataType<float>()); + + auto inputToInputWeights = + MakeTensor<float, 2>(tensorInfo20x5, {0.021393683f,0.06124551f, 0.046905167f,-0.014657677f,-0.03149463f, + 0.09171803f, 0.14647801f,0.10797193f, -0.0057968358f,0.0019193048f, + -0.2726754f, 0.10154029f, -0.018539885f, 0.080349885f, -0.10262385f, + -0.022599787f,-0.09121155f, -0.008675967f, -0.045206103f,-0.0821282f, + -0.008045952f,0.015478081f, 0.055217247f, 0.038719587f, 0.044153627f, + -0.06453243f,0.05031825f, -0.046935108f, -0.008164439f, 0.014574226f, + -0.1671009f, -0.15519552f, -0.16819797f,-0.13971269f,-0.11953059f, + 0.25005487f, -0.22790983f, 0.009855087f, -0.028140958f, -0.11200698f, + 0.11295408f, -0.0035217577f, 0.054485075f, 0.05184695f, 0.064711206f, + 0.10989193f, 0.11674786f, 0.03490607f, 0.07727357f, 0.11390585f, + -0.1863375f, -0.1034451f, -0.13945189f, -0.049401227f, -0.18767063f, + 0.042483903f, 0.14233552f, 0.13832581f, 0.18350165f, 0.14545603f, + -0.028545704f,0.024939531f,0.050929718f,0.0076203286f,-0.0029723682f, + -0.042484224f, -0.11827596f, -0.09171104f, -0.10808628f,-0.16327988f, + -0.2273378f, -0.0993647f, -0.017155107f,0.0023917493f,0.049272764f, + 0.0038534778f, 0.054764505f, 0.089753784f, 0.06947234f, 0.08014476f, + -0.04544234f, -0.0497073f,-0.07135631f, -0.048929106f,-0.004042012f, + -0.009284026f, 0.018042054f, 0.0036860977f,-0.07427302f, -0.11434604f, + -0.018995456f, 0.031487543f, 0.012834908f,0.019977754f,0.044256654f, + -0.39292613f, -0.18519334f, -0.11651281f,-0.06809892f, 0.011373677f + }); + + auto inputToForgetWeights = + MakeTensor<float, 2>(tensorInfo20x5, {-0.0018401089f, -0.004852237f,0.03698424f, 0.014181704f,0.028273236f, + -0.016726194f, -0.05249759f,-0.10204261f, 0.00861066f,-0.040979505f, + -0.009899187f,0.01923892f,-0.028177269f, -0.08535103f,-0.14585495f, + 0.10662567f,-0.01909731f,-0.017883534f,-0.0047269356f,-0.045103323f, + 0.0030784295f,0.076784775f,0.07463696f, 0.094531395f,0.0814421f, + -0.12257899f, -0.033945758f,-0.031303465f, 0.045630626f,0.06843887f, + -0.13492945f, -0.012480007f,-0.0811829f, -0.07224499f,-0.09628791f, + 0.045100946f,0.0012300825f, 0.013964662f, 0.099372394f,0.02543059f, + 0.06958324f, 0.034257296f, 0.0482646f, 0.06267997f,0.052625068f, + 0.12784666f, 0.07077897f, 0.025725935f, 0.04165009f,0.07241905f, + 0.018668644f, -0.037377294f,-0.06277783f,-0.08833636f,-0.040120605f, + -0.011405586f,-0.007808335f,-0.010301386f,-0.005102167f,0.027717464f, + 0.05483423f, 0.11449111f, 0.11289652f,0.10939839f, 0.13396506f, + -0.08402166f,-0.01901462f, -0.044678304f,-0.07720565f,0.014350063f, + -0.11757958f, -0.0652038f, -0.08185733f,-0.076754324f,-0.092614375f, + 0.10405491f, 0.052960336f, 0.035755895f,0.035839386f,-0.012540553f, + 0.036881298f, 0.02913376f, 0.03420159f,0.05448447f,-0.054523353f, + 0.02582715f, 0.02327355f, -0.011857179f,-0.0011980024f,-0.034641717f, + -0.026125094f,-0.17582615f,-0.15923657f,-0.27486774f,-0.0006143371f, + 0.0001771948f, -8.470171e-05f, 0.02651807f,0.045790765f,0.06956496f + }); + + auto inputToCellWeights = + MakeTensor<float, 2>(tensorInfo20x5, {-0.04580283f, -0.09549462f, -0.032418985f, -0.06454633f, + -0.043528453f, 0.043018587f, -0.049152344f, -0.12418144f, + -0.078985475f, -0.07596889f, 0.019484362f, -0.11434962f, + -0.0074034138f, -0.06314844f, -0.092981495f, 0.0062155537f, + -0.025034338f, -0.0028890965f, 0.048929527f, 0.06235075f, + 0.10665918f, -0.032036792f, -0.08505916f, -0.10843358f, + -0.13002433f, -0.036816437f, -0.02130134f, -0.016518239f, + 0.0047691227f, -0.0025825808f, 0.066017866f, 0.029991534f, + -0.10652836f, -0.1037554f, -0.13056071f, -0.03266643f, + -0.033702414f, -0.006473424f, -0.04611692f, 0.014419339f, + -0.025174323f, 0.0396852f, 0.081777506f, 0.06157468f, + 0.10210095f, -0.009658194f, 0.046511717f, 0.03603906f, + 0.0069369148f, 0.015960095f, -0.06507666f, 0.09551598f, + 0.053568836f, 0.06408714f, 0.12835667f, -0.008714329f, + -0.20211966f, -0.12093674f, 0.029450472f, 0.2849013f, + -0.029227901f, 0.1164364f, -0.08560263f, 0.09941786f, + -0.036999565f, -0.028842626f, -0.0033637602f, -0.017012902f, + -0.09720865f, -0.11193351f, -0.029155117f, -0.017936034f, + -0.009768936f, -0.04223324f, -0.036159635f, 0.06505112f, + -0.021742892f, -0.023377212f, -0.07221364f, -0.06430552f, + 0.05453865f, 0.091149814f, 0.06387331f, 0.007518393f, + 0.055960953f, 0.069779344f, 0.046411168f, 0.10509911f, + 0.07463894f, 0.0075130584f, 0.012850982f, 0.04555431f, + 0.056955688f, 0.06555285f, 0.050801456f, -0.009862683f, + 0.00826772f, -0.026555609f, -0.0073611983f, -0.0014897042f + }); + + auto inputToOutputWeights = + MakeTensor<float, 2>(tensorInfo20x5, {-0.0998932f, -0.07201956f, -0.052803773f,-0.15629593f,-0.15001918f, + -0.07650751f,0.02359855f, -0.075155355f, -0.08037709f, -0.15093534f, + 0.029517552f, -0.04751393f, 0.010350531f,-0.02664851f, -0.016839722f, + -0.023121163f, 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0.21198851f, -0.38871562f, -0.09061183f, -0.09683246f, -0.21929175f + }); + + + auto cellToForgetWeights = + MakeTensor<float, 1>(tensorInfo20, {-0.01998659f,-0.15568835f,-0.24248174f, -0.012770197f, 0.041331276f, + -0.072311886f, -0.052123554f,-0.0066330447f,-0.043891653f,0.036225766f, + -0.047248036f, 0.021479502f,0.033189066f, 0.11952997f, -0.020432774f, + 0.64658105f, -0.06650122f, -0.03467612f, 0.095340036f, 0.23647355f + }); + + auto cellToOutputWeights = + MakeTensor<float, 1>(tensorInfo20, {0.08286371f, -0.08261836f, -0.51210177f, 0.002913762f, 0.17764764f, + -0.5495371f, -0.08460716f, -0.24552552f, 0.030037103f, 0.04123544f, + -0.11940523f, 0.007358328f, 0.1890978f, 0.4833202f, -0.34441817f, + 0.36312827f, -0.26375428f, 0.1457655f, -0.19724406f, 0.15548733f + }); + + auto projectionWeights = + MakeTensor<float, 2>(tensorInfo16x20, + {-0.009802181f, 0.09401916f, 0.0717386f, -0.13895074f, 0.09641832f, + 0.060420845f, 0.08539281f, 0.054285463f, 0.061395317f, 0.034448683f, + -0.042991187f, 0.019801661f, -0.16840284f, -0.015726732f, -0.23041931f, + -0.024478018f, -0.10959692f, -0.013875541f, 0.18600968f, -0.061274476f, + 0.0138165f, -0.08160894f, -0.07661644f, 0.032372914f, 0.16169067f, + 0.22465782f, -0.03993472f, -0.004017731f, 0.08633481f, -0.28869787f, + 0.08682067f, 0.17240396f, 0.014975425f, 0.056431185f, 0.031037588f, + 0.16702051f, 0.0077946745f, 0.15140012f, 0.29405436f, 0.120285f, + -0.188994f, -0.027265169f, 0.043389652f, -0.022061434f, 0.014777949f, + -0.20203483f, 0.094781205f, 0.19100232f, 0.13987629f, -0.036132768f, + -0.06426278f, -0.05108664f, 0.13221376f, 0.009441198f, -0.16715929f, + 0.15859416f, -0.040437475f, 0.050779544f, -0.022187516f, 0.012166504f, + 0.027685808f, -0.07675938f, -0.0055694645f, -0.09444123f, 0.0046453946f, + 0.050794356f, 0.10770313f, -0.20790008f, -0.07149004f, -0.11425117f, + 0.008225835f, -0.035802525f, 0.14374903f, 0.15262283f, 0.048710253f, + 0.1847461f, -0.007487823f, 0.11000021f, -0.09542012f, 0.22619456f, + -0.029149994f, 0.08527916f, 0.009043713f, 0.0042746216f, 0.016261552f, + 0.022461696f, 0.12689082f, -0.043589946f, -0.12035478f, -0.08361797f, + -0.050666027f, -0.1248618f, -0.1275799f, -0.071875185f, 0.07377272f, + 0.09944291f, -0.18897448f, -0.1593054f, -0.06526116f, -0.040107165f, + -0.004618631f, -0.067624845f, -0.007576253f, 0.10727444f, 0.041546922f, + -0.20424393f, 0.06907816f, 0.050412357f, 0.00724631f, 0.039827548f, + 0.12449835f, 0.10747581f, 0.13708383f, 0.09134148f, -0.12617786f, + -0.06428341f, 0.09956831f, 0.1208086f, -0.14676677f, -0.0727722f, + 0.1126304f, 0.010139365f, 0.015571211f, -0.038128063f, 0.022913318f, + -0.042050496f, 0.16842307f, -0.060597885f, 0.10531834f, -0.06411776f, + -0.07451711f, -0.03410368f, -0.13393489f, 0.06534304f, 0.003620307f, + 0.04490757f, 0.05970546f, 0.05197996f, 0.02839995f, 0.10434969f, + -0.013699693f, -0.028353551f, -0.07260381f, 0.047201227f, -0.024575593f, + -0.036445823f, 0.07155557f, 0.009672501f, -0.02328883f, 0.009533515f, + -0.03606021f, -0.07421458f, -0.028082801f, -0.2678904f, -0.13221288f, + 0.18419984f, -0.13012612f, -0.014588381f, -0.035059117f, -0.04824723f, + 0.07830115f, -0.056184657f, 0.03277091f, 0.025466874f, 0.14494097f, + -0.12522776f, -0.098633975f, -0.10766018f, -0.08317623f, 0.08594209f, + 0.07749552f, 0.039474737f, 0.1776665f, -0.07409566f, -0.0477268f, + 0.29323658f, 0.10801441f, 0.1154011f, 0.013952499f, 0.10739139f, + 0.10708251f, -0.051456142f, 0.0074137426f, -0.10430189f, 0.10034707f, + 0.045594677f, 0.0635285f, -0.0715442f, -0.089667566f, -0.10811871f, + 0.00026344223f, 0.08298446f, -0.009525053f, 0.006585689f, -0.24567553f, + -0.09450807f, 0.09648481f, 0.026996298f, -0.06419476f, -0.04752702f, + -0.11063944f, -0.23441927f, -0.17608605f, -0.052156363f, 0.067035615f, + 0.19271925f, -0.0032889997f, -0.043264326f, 0.09663576f, -0.057112187f, + -0.10100678f, 0.0628376f, 0.04447668f, 0.017961001f, -0.10094388f, + -0.10190601f, 0.18335468f, 0.10494553f, -0.052095775f, -0.0026118709f, + 0.10539724f, -0.04383912f, -0.042349473f, 0.08438151f, -0.1947263f, + 0.02251204f, 0.11216432f, -0.10307853f, 0.17351969f, -0.039091777f, + 0.08066188f, -0.00561982f, 0.12633002f, 0.11335965f, -0.0088127935f, + -0.019777594f, 0.06864014f, -0.059751723f, 0.016233567f, -0.06894641f, + -0.28651384f, -0.004228674f, 0.019708522f, -0.16305895f, -0.07468996f, + -0.0855457f, 0.099339016f, -0.07580735f, -0.13775392f, 0.08434318f, + 0.08330512f, -0.12131499f, 0.031935584f, 0.09180414f, -0.08876437f, + -0.08049874f, 0.008753825f, 0.03498998f, 0.030215185f, 0.03907079f, + 0.089751154f, 0.029194152f, -0.03337423f, -0.019092513f, 0.04331237f, + 0.04299654f, -0.036394123f, -0.12915532f, 0.09793732f, 0.07512415f, + -0.11319543f, -0.032502122f, 0.15661901f, 0.07671967f, -0.005491124f, + -0.19379048f, -0.218606f, 0.21448623f, 0.017840758f, 0.1416943f, + -0.07051762f, 0.19488361f, 0.02664691f, -0.18104725f, -0.09334311f, + 0.15026465f, -0.15493552f, -0.057762887f, -0.11604192f, -0.262013f, + -0.01391798f, 0.012185008f, 0.11156489f, -0.07483202f, 0.06693364f, + -0.26151478f, 0.046425626f, 0.036540434f, -0.16435726f, 0.17338543f, + -0.21401681f, -0.11385144f, -0.08283257f, -0.069031075f, 0.030635102f, + 0.010969227f, 0.11109743f, 0.010919218f, 0.027526086f, 0.13519906f, + 0.01891392f, -0.046839405f, -0.040167913f, 0.017953383f, -0.09700955f, + 0.0061885654f, -0.07000971f, 0.026893595f, -0.038844477f, 0.14543656f + }); + + std::vector<float> projectionBiasVector(outputSize, 0.f); + auto projectionBias = MakeTensor<float,1>(tensorInfo16, projectionBiasVector); + + armnn::ScopedCpuTensorHandle inputToInputWeightsTensor(tensorInfo20x5); + armnn::ScopedCpuTensorHandle inputToForgetWeightsTensor(tensorInfo20x5); + armnn::ScopedCpuTensorHandle inputToCellWeightsTensor(tensorInfo20x5); + armnn::ScopedCpuTensorHandle inputToOutputWeightsTensor(tensorInfo20x5); + armnn::ScopedCpuTensorHandle recurrentToForgetWeightsTensor(tensorInfo20x16); + armnn::ScopedCpuTensorHandle recurrentToInputWeightsTensor(tensorInfo20x16); + armnn::ScopedCpuTensorHandle recurrentToCellWeightsTensor(tensorInfo20x16); + armnn::ScopedCpuTensorHandle recurrentToOutputWeightsTensor(tensorInfo20x16); + armnn::ScopedCpuTensorHandle cellToInputWeightsTensor(tensorInfo20); + armnn::ScopedCpuTensorHandle inputGateBiasTensor(tensorInfo20); + armnn::ScopedCpuTensorHandle forgetGateBiasTensor(tensorInfo20); + armnn::ScopedCpuTensorHandle cellBiasTensor(tensorInfo20); + armnn::ScopedCpuTensorHandle outputGateBiasTensor(tensorInfo20); + armnn::ScopedCpuTensorHandle cellToForgetWeightsTensor(tensorInfo20); + armnn::ScopedCpuTensorHandle cellToOutputWeightsTensor(tensorInfo20); + armnn::ScopedCpuTensorHandle projectionWeightsTensor(tensorInfo16x20); + armnn::ScopedCpuTensorHandle projectionBiasTensor(tensorInfo16); + + AllocateAndCopyDataToITensorHandle(&inputToInputWeightsTensor, &inputToInputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToForgetWeightsTensor, &inputToForgetWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToCellWeightsTensor, &inputToCellWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToOutputWeightsTensor, &inputToOutputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToInputWeightsTensor, &recurrentToInputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToForgetWeightsTensor, &recurrentToForgetWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToCellWeightsTensor, &recurrentToCellWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToOutputWeightsTensor, &recurrentToOutputWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&cellToInputWeightsTensor, &cellToInputWeights[0]); + AllocateAndCopyDataToITensorHandle(&inputGateBiasTensor, &inputGateBias[0]); + AllocateAndCopyDataToITensorHandle(&forgetGateBiasTensor, &forgetGateBias[0]); + AllocateAndCopyDataToITensorHandle(&cellBiasTensor, &cellBias[0]); + AllocateAndCopyDataToITensorHandle(&outputGateBiasTensor, &outputGateBias[0]); + AllocateAndCopyDataToITensorHandle(&cellToForgetWeightsTensor, &cellToForgetWeights[0]); + AllocateAndCopyDataToITensorHandle(&cellToOutputWeightsTensor, &cellToOutputWeights[0]); + AllocateAndCopyDataToITensorHandle(&projectionWeightsTensor, &projectionWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&projectionBiasTensor, &projectionBias[0]); + + data.m_InputToInputWeights = &inputToInputWeightsTensor; + data.m_InputToForgetWeights = &inputToForgetWeightsTensor; + data.m_InputToCellWeights = &inputToCellWeightsTensor; + data.m_InputToOutputWeights = &inputToOutputWeightsTensor; + data.m_RecurrentToInputWeights = &recurrentToInputWeightsTensor; + data.m_RecurrentToForgetWeights = &recurrentToForgetWeightsTensor; + data.m_RecurrentToCellWeights = &recurrentToCellWeightsTensor; + data.m_RecurrentToOutputWeights = &recurrentToOutputWeightsTensor; + data.m_CellToInputWeights = &cellToInputWeightsTensor; + data.m_InputGateBias = &inputGateBiasTensor; + data.m_ForgetGateBias = &forgetGateBiasTensor; + data.m_CellBias = &cellBiasTensor; + data.m_OutputGateBias = &outputGateBiasTensor; + data.m_CellToForgetWeights = &cellToForgetWeightsTensor; + data.m_CellToOutputWeights = &cellToOutputWeightsTensor; + data.m_ProjectionWeights = &projectionWeightsTensor; + data.m_ProjectionBias = &projectionBiasTensor; + + // Flags to set test configuration + data.m_Parameters.m_ActivationFunc = 4; + data.m_Parameters.m_CifgEnabled = false; + data.m_Parameters.m_PeepholeEnabled = true; + data.m_Parameters.m_ProjectionEnabled = true; + + + std::unique_ptr<armnn::IWorkload> workload = workloadFactory.CreateLstm(data, info); + inputHandle->Allocate(); + outputStateInHandle->Allocate(); + cellStateInHandle->Allocate(); + + scratchHandle->Allocate(); + outputStateOutHandle->Allocate(); + cellStateOutHandle->Allocate(); + outputHandle->Allocate(); + + CopyDataToITensorHandle(inputHandle.get(), &inputTensor[0][0]); + CopyDataToITensorHandle(outputStateInHandle.get(), &outputStateInTensor[0][0]); + CopyDataToITensorHandle(cellStateInHandle.get(), &cellStateInTensor[0][0]); + + workloadFactory.Finalize(); + workload->Execute(); + + CopyDataFromITensorHandle(&ret.output[0][0], outputHandle.get()); + + return ret; + +} + + +LayerTestResult<float, 2> LstmLayerWithCifgWithPeepholeNoProjectionTestImpl(armnn::IWorkloadFactory& workloadFactory, + const boost::multi_array<float, 2>& input, + const boost::multi_array<float, 2>& outputExpected) +{ + bool cifgEnabled = true; + bool peepholeEnabled = true; + bool projectionEnabled = false; + // These are not the input and the output of Lstm yet + unsigned int batchSize = boost::numeric_cast<unsigned int>(input.shape()[0]); + unsigned int inputSize = boost::numeric_cast<unsigned int>(input.shape()[1]); + + unsigned int outputSize = boost::numeric_cast<unsigned int>(outputExpected.shape()[1]); + + const unsigned int cellSize = outputSize; + + // Decide the shape of all input tensors + armnn::TensorInfo inputTensorInfo({batchSize , inputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo outputStateInTensorInfo({batchSize, outputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo cellStateInTensorInfo({batchSize, cellSize}, armnn::GetDataType<float>()); + + unsigned int scratchBufferSize = cifgEnabled ? cellSize * 4 : cellSize * 3; + armnn::TensorInfo scratchBufferTensorInfo({batchSize, scratchBufferSize}, armnn::GetDataType<float>()); + armnn::TensorInfo outputStateOutTensorInfo({batchSize, outputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo cellStateOutTensorInfo({batchSize, cellSize}, armnn::GetDataType<float>()); + armnn::TensorInfo outputTensorInfo({batchSize, outputSize}, armnn::GetDataType<float>()); + + // List of inputs + std::vector<float> inputData; + inputData.assign(input.data(), input.data() + batchSize*inputSize); + auto inputTensor = MakeTensor<float,2>(inputTensorInfo, inputData); + + std::vector<float> outputStateInVector(batchSize * outputSize, 0.f); + auto outputStateInTensor = MakeTensor<float, 2>(outputStateInTensorInfo, outputStateInVector); + + std::vector<float> cellStateInVector(batchSize * cellSize, 0.f); + auto cellStateInTensor = MakeTensor<float, 2>(cellStateInTensorInfo, cellStateInVector); + + + // Prepare all the weights in the descriptor for LSTM + armnn::LstmQueueDescriptor data; + armnn::TensorInfo tensorInfoInput({cellSize, inputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfoOutput({cellSize, outputSize}, armnn::GetDataType<float>()); + armnn::TensorInfo tensorInfoNumUnits({cellSize}, armnn::GetDataType<float>()); + + auto inputToCellWeights = MakeTensor<float, 2>(tensorInfoInput, + {-0.49770179f, -0.27711356f, -0.09624726f, 0.05100781f, + 0.04717243f, 0.48944736f, -0.38535351f, + -0.17212132f}); + auto inputToForgetWeights = MakeTensor<float, 2>(tensorInfoInput, + {-0.55291498f, -0.42866567f, 0.13056988f, + -0.3633365f, -0.22755712f, 0.28253698f, 0.24407166f, + 0.33826375f}); + auto inputToOutputWeights = MakeTensor<float, 2>(tensorInfoInput, + {0.10725588f, -0.02335852f, -0.55932593f, + -0.09426838f, -0.44257352f, 0.54939759f, + 0.01533556f, 0.42751634f}); + auto cellBias = MakeTensor<float, 1>(tensorInfoNumUnits, {0.f, 0.f, 0.f, 0.f}); + auto forgetGateBias = MakeTensor<float, 1>(tensorInfoNumUnits, {1.f, 1.f, 1.f, 1.f}); + auto outputGateBias = MakeTensor<float, 1>(tensorInfoNumUnits, {0.f, 0.f, 0.f, 0.f}); + + auto recurrentToCellWeights = MakeTensor<float, 2>(tensorInfoOutput, + {0.54066205f, -0.32668582f, -0.43562764f, -0.56094903f, 0.42957711f, + 0.01841056f, -0.32764608f, -0.33027974f, -0.10826075f, 0.20675004f, + 0.19069612f, -0.03026325f, -0.54532051f, 0.33003211f, 0.44901288f, + 0.21193194f}); + auto recurrentToForgetWeights = MakeTensor<float, 2>(tensorInfoOutput, + {-0.13832897f, -0.0515101f, -0.2359007f, -0.16661474f, -0.14340827f, + 0.36986142f, 0.23414481f, 0.55899f, 0.10798943f, -0.41174671f, 0.17751795f, + -0.34484994f, -0.35874045f, -0.11352962f, 0.27268326f, 0.54058349f}); + + auto recurrentToOutputWeights = MakeTensor<float, 2>(tensorInfoOutput, + {0.41613156f, 0.42610586f, -0.16495961f, -0.5663873f, 0.30579174f, -0.05115908f, + -0.33941799f, 0.23364776f, 0.11178309f, 0.09481031f, -0.26424935f, 0.46261835f, + 0.50248802f, 0.26114327f, -0.43736315f, 0.33149987f}); + + auto cellToForgetWeights = MakeTensor<float, 1>(tensorInfoNumUnits, + {0.47485286f, -0.51955009f, -0.24458408f, 0.31544167f}); + auto cellToOutputWeights = MakeTensor<float, 1>(tensorInfoNumUnits, + {-0.17135078f, 0.82760304f, 0.85573703f, -0.77109635f}); + + armnn::ScopedCpuTensorHandle inputToCellWeightsTensor(tensorInfoInput); + armnn::ScopedCpuTensorHandle inputToForgetWeightsTensor(tensorInfoInput); + armnn::ScopedCpuTensorHandle inputToOutputWeightsTensor(tensorInfoInput); + + armnn::ScopedCpuTensorHandle cellBiasTensor(tensorInfoNumUnits); + armnn::ScopedCpuTensorHandle forgetGateBiasTensor(tensorInfoNumUnits); + armnn::ScopedCpuTensorHandle outputGateBiasTensor(tensorInfoNumUnits); + + armnn::ScopedCpuTensorHandle recurrentToCellWeightsTensor(tensorInfoOutput); + armnn::ScopedCpuTensorHandle recurrentToForgetWeightsTensor(tensorInfoOutput); + armnn::ScopedCpuTensorHandle recurrentToOutputWeightsTensor(tensorInfoOutput); + + + armnn::ScopedCpuTensorHandle cellToForgetWeightsTensor(tensorInfoNumUnits); + armnn::ScopedCpuTensorHandle cellToOutputWeightsTensor(tensorInfoNumUnits); + + AllocateAndCopyDataToITensorHandle(&inputToCellWeightsTensor, &inputToCellWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToForgetWeightsTensor, &inputToForgetWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&inputToOutputWeightsTensor, &inputToOutputWeights[0][0]); + + AllocateAndCopyDataToITensorHandle(&cellBiasTensor, &cellBias[0]); + AllocateAndCopyDataToITensorHandle(&forgetGateBiasTensor, &forgetGateBias[0]); + AllocateAndCopyDataToITensorHandle(&outputGateBiasTensor, &outputGateBias[0]); + + AllocateAndCopyDataToITensorHandle(&recurrentToCellWeightsTensor, &recurrentToCellWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToForgetWeightsTensor, &recurrentToForgetWeights[0][0]); + AllocateAndCopyDataToITensorHandle(&recurrentToOutputWeightsTensor, &recurrentToOutputWeights[0][0]); + + AllocateAndCopyDataToITensorHandle(&cellToForgetWeightsTensor, &cellToForgetWeights[0]); + AllocateAndCopyDataToITensorHandle(&cellToOutputWeightsTensor, &cellToOutputWeights[0]); + + + data.m_InputToCellWeights = &inputToCellWeightsTensor; + data.m_InputToForgetWeights = &inputToForgetWeightsTensor; + data.m_InputToOutputWeights = &inputToOutputWeightsTensor; + + data.m_CellBias = &cellBiasTensor; + data.m_ForgetGateBias = &forgetGateBiasTensor; + data.m_OutputGateBias = &outputGateBiasTensor; + + data.m_RecurrentToCellWeights = &recurrentToCellWeightsTensor; + data.m_RecurrentToForgetWeights = &recurrentToForgetWeightsTensor; + data.m_RecurrentToOutputWeights = &recurrentToOutputWeightsTensor; + + data.m_CellToForgetWeights = &cellToForgetWeightsTensor; + data.m_CellToOutputWeights = &cellToOutputWeightsTensor; + + // other parameters for the descriptor + data.m_Parameters.m_CifgEnabled = cifgEnabled; + data.m_Parameters.m_ProjectionEnabled = projectionEnabled; + data.m_Parameters.m_PeepholeEnabled = peepholeEnabled; + + data.m_Parameters.m_ActivationFunc = 4; + data.m_Parameters.m_ClippingThresProj = 0.0; + data.m_Parameters.m_ClippingThresCell = 0.0; + + + // List of outputs + std::vector<float> scratchBufferVector(batchSize * scratchBufferSize, 0.f); + auto scratchBufferTensor = MakeTensor<float,2>(scratchBufferTensorInfo, scratchBufferVector); + LayerTestResult<float, 2> ret0(scratchBufferTensorInfo); + + // Output state for a certain time step + std::vector<float> outputStateOutVector(batchSize * outputSize, 0.f); + auto outputStateOutTensor = MakeTensor<float,2>(outputStateOutTensorInfo, outputStateOutVector); + LayerTestResult<float, 2> ret1(outputStateOutTensorInfo); + + // Cell state for a certain time step + std::vector<float> cellStateOutVector(batchSize * cellSize, 0.f); + auto cellStateOutTensor = MakeTensor<float,2>(cellStateOutTensorInfo, cellStateOutVector); + LayerTestResult<float, 2> ret2(cellStateOutTensorInfo); + + // Output for a certain time step + std::vector<float> outputVector(batchSize * outputSize, 0.f); + auto outputTensor = MakeTensor<float, 2>(outputTensorInfo, outputVector); + std::vector<float> outputData; + outputData.assign(outputExpected.data(), outputExpected.data() + batchSize*outputSize); + LayerTestResult<float, 2> ret3(outputTensorInfo); + ret3.outputExpected = MakeTensor<float, 2>(outputTensorInfo, outputData); + + // Prepare the inputs and outputs for the workload + std::unique_ptr<armnn::ITensorHandle> inputHandle = + workloadFactory.CreateTensorHandle(inputTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputStateInHandle = + workloadFactory.CreateTensorHandle(outputStateInTensorInfo); + std::unique_ptr<armnn::ITensorHandle> cellStateInHandle = + workloadFactory.CreateTensorHandle(cellStateInTensorInfo); + + std::unique_ptr<armnn::ITensorHandle> scratchBufferHandle = + workloadFactory.CreateTensorHandle(scratchBufferTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputStateOutHandle = + workloadFactory.CreateTensorHandle(outputStateOutTensorInfo); + std::unique_ptr<armnn::ITensorHandle> cellStateOutHandle = + workloadFactory.CreateTensorHandle(cellStateOutTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputHandle = + workloadFactory.CreateTensorHandle(outputTensorInfo); + + armnn::WorkloadInfo info; + AddInputToWorkload(data, info, inputTensorInfo, inputHandle.get()); + AddInputToWorkload(data, info, outputStateInTensorInfo, outputStateInHandle.get()); + AddInputToWorkload(data, info, cellStateInTensorInfo, cellStateInHandle.get()); + + AddOutputToWorkload(data, info, scratchBufferTensorInfo, scratchBufferHandle.get()); + AddOutputToWorkload(data, info, outputStateOutTensorInfo, outputStateOutHandle.get()); + AddOutputToWorkload(data, info, cellStateOutTensorInfo, cellStateOutHandle.get()); + AddOutputToWorkload(data, info, outputTensorInfo, outputHandle.get()); + + std::unique_ptr<armnn::IWorkload> workload = workloadFactory.CreateLstm(data, info); + + + inputHandle->Allocate(); + outputStateInHandle->Allocate(); + cellStateInHandle->Allocate(); + + scratchBufferHandle->Allocate(); + outputStateOutHandle->Allocate(); + cellStateOutHandle->Allocate(); + outputHandle->Allocate(); + + + CopyDataToITensorHandle(inputHandle.get(), &inputTensor[0][0]); + CopyDataToITensorHandle(outputStateInHandle.get(), &outputStateInTensor[0][0]); + CopyDataToITensorHandle(cellStateInHandle.get(), &cellStateInTensor[0][0]); + + CopyDataToITensorHandle(scratchBufferHandle.get(), &scratchBufferTensor[0][0]); + CopyDataToITensorHandle(outputStateOutHandle.get(), &outputStateOutTensor[0][0]); + CopyDataToITensorHandle(cellStateOutHandle.get(), &cellStateOutTensor[0][0]); + + workloadFactory.Finalize(); + workload->Execute(); + + CopyDataFromITensorHandle(&ret0.output[0][0], scratchBufferHandle.get()); + CopyDataFromITensorHandle(&ret1.output[0][0], outputStateOutHandle.get()); + CopyDataFromITensorHandle(&ret2.output[0][0], cellStateOutHandle.get()); + CopyDataFromITensorHandle(&ret3.output[0][0], outputHandle.get()); + + return ret3; +} |