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-rw-r--r--delegate/src/UnidirectionalSequenceLstm.hpp266
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diff --git a/delegate/src/UnidirectionalSequenceLstm.hpp b/delegate/src/UnidirectionalSequenceLstm.hpp
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+++ b/delegate/src/UnidirectionalSequenceLstm.hpp
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+//
+// Copyright © 2021 Arm Ltd and Contributors. All rights reserved.
+// SPDX-License-Identifier: MIT
+//
+
+#pragma once
+
+#include "DelegateUtils.hpp"
+
+#include <armnn/LstmParams.hpp>
+#include <armnn/Tensor.hpp>
+#include <armnn/utility/IgnoreUnused.hpp>
+
+#include <tensorflow/lite/builtin_ops.h>
+#include <tensorflow/lite/c/builtin_op_data.h>
+#include <tensorflow/lite/c/common.h>
+#include <tensorflow/lite/minimal_logging.h>
+
+namespace armnnDelegate
+{
+
+TfLiteStatus VisitUnidirectionalSequenceLstmOperator(DelegateData& delegateData,
+ TfLiteContext* tfLiteContext,
+ TfLiteNode* tfLiteNode,
+ int nodeIndex,
+ int32_t operatorCode)
+{
+ auto numInputs = tfLiteNode->inputs->size;
+ if (numInputs < 2)
+ {
+ TF_LITE_MAYBE_KERNEL_LOG(
+ tfLiteContext, "TfLiteArmnnDelegate: Minimum number of inputs (%d != %d) in node #%d",
+ 2, numInputs, nodeIndex);
+ return kTfLiteError;
+ }
+
+ const auto nodeParams = reinterpret_cast<TfLiteUnidirectionalSequenceLSTMParams *>(tfLiteNode->builtin_data);
+ const TfLiteTensor* tfLiteTensors = tfLiteContext->tensors;
+
+ const TfLiteTensor& tfLiteInputTensor = tfLiteTensors[tfLiteNode->inputs->data[0]];
+ if (!IsValid(tfLiteContext, tfLiteInputTensor, operatorCode, nodeIndex))
+ {
+ return kTfLiteError;
+ }
+
+ const TfLiteTensor& tfLiteOutputTensor = tfLiteTensors[tfLiteNode->outputs->data[0]];
+ if (!IsValid(tfLiteContext, tfLiteOutputTensor, operatorCode, nodeIndex))
+ {
+ return kTfLiteError;
+ }
+
+ // Set the params structure for the AddUnidirectionalSequenceLstmLayer call
+ // Please refer to each operand at
+ // https://www.tensorflow.org/mlir/tfl_ops#tflunidirectional_sequence_lstm_tflunidirectionalsequencelstmop
+ armnn::LstmInputParams params;
+
+ if (!IsOptionalOperandPresent(tfLiteNode, 1))
+ {
+ params.m_InputToInputWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 1);
+ }
+
+ params.m_InputToForgetWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 2);
+ params.m_InputToCellWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 3);
+ params.m_InputToOutputWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 4);
+
+ // Recurrent weight tensors of size {n_cell, n_output}
+ if (!IsOptionalOperandPresent(tfLiteNode, 5))
+ {
+ params.m_RecurrentToInputWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 5);
+ }
+
+ params.m_RecurrentToForgetWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 6);
+ params.m_RecurrentToCellWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 7);
+ params.m_RecurrentToOutputWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 8);
+
+ // Peephole weights tensors of size {n_cell}, representing a diagonal matrix.
+ if (!IsOptionalOperandPresent(tfLiteNode, 9))
+ {
+ params.m_CellToInputWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 9);
+ }
+
+ if (!IsOptionalOperandPresent(tfLiteNode, 10))
+ {
+ params.m_CellToForgetWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 10);
+ }
+
+ if (!IsOptionalOperandPresent(tfLiteNode, 11))
+ {
+ params.m_CellToOutputWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 11);
+ }
+
+ // Gates bias tensors of size {n_cell}
+ if (!IsOptionalOperandPresent(tfLiteNode, 12))
+ {
+ params.m_InputGateBias = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 12);
+ }
+
+ params.m_ForgetGateBias = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 13);
+ params.m_CellBias = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 14);
+ params.m_OutputGateBias = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 15);
+
+ // Projection weight tensor of size {n_output, n_cell}
+ if (!IsOptionalOperandPresent(tfLiteNode, 16))
+ {
+ params.m_ProjectionWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 16);
+ }
+ // Projection bias tensor of size {n_output}
+ if (!IsOptionalOperandPresent(tfLiteNode, 17))
+ {
+ params.m_ProjectionBias = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 17);
+ }
+
+ // These state tensors are defined as variable tensors, and will be modified by this op.
+ armnn::TensorInfo outputStateInInfo = GetTensorInfoForTfLiteTensor(tfLiteTensors[tfLiteNode->inputs->data[18]]);
+ armnn::TensorInfo cellStateInInfo = GetTensorInfoForTfLiteTensor(tfLiteTensors[tfLiteNode->inputs->data[19]]);
+
+ // Layer norm coefficient tensors of size {n_cell}, representing a diagonal matrix.
+ if (tfLiteNode->inputs->size >= 21 && !IsOptionalOperandPresent(tfLiteNode, 20))
+ {
+ params.m_InputLayerNormWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 20);
+ }
+
+ if (tfLiteNode->inputs->size >= 22 && !IsOptionalOperandPresent(tfLiteNode, 21))
+ {
+ params.m_ForgetLayerNormWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 21);
+ }
+
+ if (tfLiteNode->inputs->size >= 23 && !IsOptionalOperandPresent(tfLiteNode, 22))
+ {
+ params.m_CellLayerNormWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 22);
+ }
+
+ if (tfLiteNode->inputs->size >= 24 && !IsOptionalOperandPresent(tfLiteNode, 23))
+ {
+ params.m_OutputLayerNormWeights = GetConstTensorForTfLiteTensor(tfLiteTensors, tfLiteNode, 23);
+ }
+
+ // set the layer descriptor
+ armnn::UnidirectionalSequenceLstmDescriptor desc;
+ desc.m_ActivationFunc = NonNegative(nodeParams->activation, nodeIndex);
+ desc.m_ClippingThresCell = nodeParams->cell_clip;
+ desc.m_ClippingThresProj = nodeParams->proj_clip;
+ desc.m_CifgEnabled = (params.m_InputToInputWeights == nullptr
+ || params.m_RecurrentToInputWeights == nullptr
+ || params.m_InputGateBias == nullptr);
+ desc.m_PeepholeEnabled = (params.m_CellToForgetWeights != nullptr || params.m_CellToOutputWeights != nullptr);
+ desc.m_ProjectionEnabled = (params.m_ProjectionWeights != nullptr);
+ desc.m_LayerNormEnabled = (params.m_InputLayerNormWeights != nullptr
+ || params.m_ForgetLayerNormWeights != nullptr
+ || params.m_CellLayerNormWeights != nullptr
+ || params.m_OutputLayerNormWeights != nullptr);
+ desc.m_TimeMajor = nodeParams->time_major;
+
+ const armnn::TensorInfo& inputTensorInfo = GetTensorInfoForTfLiteTensor(tfLiteInputTensor);
+ const armnn::TensorInfo& outputTensorInfo = GetTensorInfoForTfLiteTensor(tfLiteOutputTensor);
+
+ unsigned int batchSize = inputTensorInfo.GetShape()[0];
+ unsigned int outputSize = outputTensorInfo.GetShape()[2];
+ unsigned int numUnits = cellStateInInfo.GetShape()[1];
+
+ armnn::DataType dataType = inputTensorInfo.GetDataType();
+ float qScale = inputTensorInfo.GetQuantizationScale();
+ float qOffset = inputTensorInfo.GetQuantizationOffset();
+
+ armnn::TensorInfo scratchBufferTensorInfo({batchSize, numUnits * 3}, dataType, qScale, qOffset);
+ if (!desc.m_CifgEnabled)
+ {
+ scratchBufferTensorInfo = armnn::TensorInfo({batchSize, numUnits * 4}, dataType, qScale, qOffset);
+ }
+ armnn::TensorInfo cellStateOutTensorInfo({batchSize, numUnits}, dataType, qScale, qOffset);
+ armnn::TensorInfo outputStateOutTensorInfo({batchSize, outputSize}, dataType, qScale, qOffset);
+
+ armnn::LstmInputParamsInfo paramsInfo;
+ paramsInfo.m_InputToForgetWeights = &(params.m_InputToForgetWeights->GetInfo());
+ paramsInfo.m_InputToCellWeights = &(params.m_InputToCellWeights->GetInfo());
+ paramsInfo.m_InputToOutputWeights = &(params.m_InputToOutputWeights->GetInfo());
+ paramsInfo.m_RecurrentToForgetWeights = &(params.m_RecurrentToForgetWeights->GetInfo());
+ paramsInfo.m_RecurrentToCellWeights = &(params.m_RecurrentToCellWeights->GetInfo());
+ paramsInfo.m_RecurrentToOutputWeights = &(params.m_RecurrentToOutputWeights->GetInfo());
+ paramsInfo.m_ForgetGateBias = &(params.m_ForgetGateBias->GetInfo());
+ paramsInfo.m_CellBias = &(params.m_CellBias->GetInfo());
+ paramsInfo.m_OutputGateBias = &(params.m_OutputGateBias->GetInfo());
+
+ if (!desc.m_CifgEnabled)
+ {
+ paramsInfo.m_InputToInputWeights = &(params.m_InputToInputWeights->GetInfo());
+ paramsInfo.m_RecurrentToInputWeights = &(params.m_RecurrentToInputWeights->GetInfo());
+ if (params.m_CellToInputWeights != nullptr)
+ {
+ paramsInfo.m_CellToInputWeights = &(params.m_CellToInputWeights->GetInfo());
+ }
+ paramsInfo.m_InputGateBias = &(params.m_InputGateBias->GetInfo());
+ }
+
+ if (desc.m_ProjectionEnabled)
+ {
+ paramsInfo.m_ProjectionWeights = &(params.m_ProjectionWeights->GetInfo());
+ if (params.m_ProjectionBias != nullptr)
+ {
+ paramsInfo.m_ProjectionBias = &(params.m_ProjectionBias->GetInfo());
+ }
+ }
+
+ if (desc.m_PeepholeEnabled)
+ {
+ paramsInfo.m_CellToForgetWeights = &(params.m_CellToForgetWeights->GetInfo());
+ paramsInfo.m_CellToOutputWeights = &(params.m_CellToOutputWeights->GetInfo());
+ }
+
+ if (desc.m_LayerNormEnabled)
+ {
+ if(!desc.m_CifgEnabled)
+ {
+ paramsInfo.m_InputLayerNormWeights = &(params.m_InputLayerNormWeights->GetInfo());
+ }
+ paramsInfo.m_ForgetLayerNormWeights = &(params.m_ForgetLayerNormWeights->GetInfo());
+ paramsInfo.m_CellLayerNormWeights = &(params.m_CellLayerNormWeights->GetInfo());
+ paramsInfo.m_OutputLayerNormWeights = &(params.m_OutputLayerNormWeights->GetInfo());
+ }
+
+ // hiddenStateOutput and cellStateOutput do not present in TfLite UnidirectionalSequenceLstm
+ armnn::Optional<armnn::TensorInfo> optionalTensor;
+
+ bool isSupported = false;
+ auto validateFunc = [&](const armnn::TensorInfo& outputInfo, bool& isSupported)
+ {
+ FORWARD_LAYER_SUPPORT_FUNC(__func__,
+ tfLiteContext,
+ IsUnidirectionalSequenceLstmSupported,
+ delegateData.m_Backends,
+ isSupported,
+ inputTensorInfo,
+ outputStateInInfo,
+ cellStateInInfo,
+ outputInfo,
+ optionalTensor,
+ optionalTensor,
+ desc,
+ paramsInfo);
+ };
+
+ if (!delegateData.m_Network)
+ {
+ validateFunc(outputTensorInfo, isSupported);
+ return isSupported ? kTfLiteOk : kTfLiteError;
+ }
+
+ armnn::IConnectableLayer* layer = delegateData.m_Network->AddUnidirectionalSequenceLstmLayer(desc, params);
+ ARMNN_ASSERT(layer != nullptr);
+
+ layer->GetOutputSlot(0).SetTensorInfo(outputTensorInfo);
+
+ // Connect the inputs
+ // input_layer
+ delegateData.m_OutputSlotForNode[tfLiteNode->inputs->data[0]]->Connect(layer->GetInputSlot(0));
+ // cellStateIn
+ delegateData.m_OutputSlotForNode[tfLiteNode->inputs->data[18]]->Connect(layer->GetInputSlot(1));
+ //outputStateIn
+ delegateData.m_OutputSlotForNode[tfLiteNode->inputs->data[19]]->Connect(layer->GetInputSlot(2));
+
+ armnn::IOutputSlot& outputSlot = layer->GetOutputSlot(0);
+ delegateData.m_OutputSlotForNode[static_cast<unsigned long>(tfLiteNode->outputs->data[0])] = &outputSlot;
+ return kTfLiteOk;
+}
+
+} // namespace armnnDelegate \ No newline at end of file
generated by cgit v1.2.1 (git 2.23.0) at 2024-06-03 00:01:11 +0000