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168 lines (148 loc) · 6.59 KB
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/* Copyright 2023 The TensorFlow Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
==============================================================================*/
// Integer version of unidirectional sequence lstm. Only the standard LSTM
// (defined in the keras LSTM layer, e.g., no peephole etc.) is supported here.
// Currently used by the 16 bits activation case only
#include <algorithm>
#include <limits>
#include "tensorflow/lite/kernels/internal/quantization_util.h"
#include "tensorflow/lite/kernels/kernel_util.h"
#include "tensorflow/lite/micro/kernels/fully_connected.h"
#include "tensorflow/lite/micro/kernels/kernel_util.h"
#include "tensorflow/lite/micro/kernels/lstm_shared.h"
#include "tensorflow/lite/micro/kernels/xtensa/lstm_eval.h"
namespace tflite {
namespace {
/*Helper Functions*/
/*Kernel functions*/
void* UnidirectionalSequenceLstmInit(TfLiteContext* context, const char* buffer,
size_t length) {
TFLITE_DCHECK(context->AllocatePersistentBuffer != nullptr);
return context->AllocatePersistentBuffer(context, sizeof(OpDataLSTM));
}
TfLiteStatus UnidirectionalSequenceLstmPrepare(TfLiteContext* context,
TfLiteNode* node) {
TF_LITE_ENSURE_EQ(context, node->outputs->size, 1);
TF_LITE_ENSURE_EQ(context, node->inputs->size, 24);
TFLITE_DCHECK(node->builtin_data != nullptr);
TFLITE_DCHECK(node->user_data != nullptr);
OpDataLSTM* op_data = reinterpret_cast<OpDataLSTM*>(node->user_data);
const auto* builtin_data =
static_cast<TfLiteUnidirectionalSequenceLSTMParams*>(node->builtin_data);
// All TempTfLiteTensors will be deallocated through the destructor.
LstmTensors lstm_tensors(context, node);
TF_LITE_ENSURE_OK(context, lstm_tensors.ValidateTensorStatus(context));
op_data->cell_gate_nonlinear_type = builtin_data->activation;
op_data->size_info =
CreateLstmSizeInfo(builtin_data->time_major,
lstm_tensors.GetInternalTensor(kLstmInputTensor)->dims,
lstm_tensors.HiddenStateTensor()->dims);
TF_LITE_ENSURE_OK(
context, ValidateTensorSize(context, lstm_tensors, op_data->size_info));
// Create cell state information and gate parameters (Fully Connected and Mul)
auto cell_state_type =
lstm_tensors.GetInternalTensor(kLstmCellStateTensor)->type;
if (cell_state_type == kTfLiteFloat32) {
op_data->cell_state_info =
CreateLstmCellStateInfoFloat(builtin_data->cell_clip);
TF_LITE_ENSURE_OK(
context, PrepareGateParametersFloat(context, lstm_tensors, op_data));
} else if (cell_state_type == kTfLiteInt16) {
op_data->cell_state_info = CreateLstmCellStateInfo(
lstm_tensors.CellStateTensor()->params.scale, builtin_data->cell_clip);
TF_LITE_ENSURE_OK(
context, PrepareGateParametersInteger(context, lstm_tensors, op_data));
} else {
MicroPrintf(
"Cell state type %s (%d) not supported. The quantized Unidirectional "
"Sequence LSTM Op only support int16 cell state",
TfLiteTypeGetName(cell_state_type), cell_state_type);
return kTfLiteError;
}
// request buffers (four buffers)
for (size_t i = 0; i < 4; i++) {
TF_LITE_ENSURE_OK(context, context->RequestScratchBufferInArena(
context,
op_data->size_info.batch_size *
op_data->size_info.state_dimension *
TfLiteTypeGetSize(cell_state_type),
&(op_data->buffer_indices[i])));
}
return kTfLiteOk;
}
TfLiteStatus UnidirectionalSequenceLstmEval(TfLiteContext* context,
TfLiteNode* node) {
TFLITE_DCHECK(node->user_data != nullptr);
const OpDataLSTM& op_data = *reinterpret_cast<OpDataLSTM*>(node->user_data);
auto kernel_content = CreateLSTMKernelContent(context, node);
const auto activation_type =
kernel_content.internal_tensors[kLstmInputTensor]->type;
const auto weight_type =
kernel_content.internal_tensors[kLstmInputToInputWeightsTensor]->type;
switch (activation_type) {
case kTfLiteFloat32: {
LSTMBuffers<float> buffers =
CreateLSTMBuffers<float>(context, op_data.buffer_indices);
EvalLstm<float, float, float, float>(op_data, kernel_content, buffers);
break;
}
case kTfLiteInt8: {
switch (weight_type) {
case kTfLiteInt8: {
// 8(activation)x8(weight)->16(cell) LSTM with 32 bits bias
LSTMBuffers<int16_t> buffers =
CreateLSTMBuffers<int16_t>(context, op_data.buffer_indices);
EvalLstm<int8_t, int8_t, int16_t, int32_t>(op_data, kernel_content,
buffers);
break;
}
default: {
MicroPrintf("Filter type %s (%d) not supported.",
TfLiteTypeGetName(weight_type), activation_type);
return kTfLiteError;
}
}
break;
}
case kTfLiteInt16: {
switch (weight_type) {
case kTfLiteInt8: {
// 16(activation)x8(weight)->16(cell) LSTM with 64 bits bias
LSTMBuffers<int16_t> buffers =
CreateLSTMBuffers<int16_t>(context, op_data.buffer_indices);
EvalLstm<int16_t, int8_t, int16_t, int64_t>(op_data, kernel_content,
buffers);
break;
}
default: {
MicroPrintf("Filter type %s (%d) not supported.",
TfLiteTypeGetName(weight_type), weight_type);
return kTfLiteError;
}
}
break;
}
default: {
MicroPrintf("Input type %s (%d) not supported.",
TfLiteTypeGetName(activation_type), activation_type);
return kTfLiteError;
}
}
return kTfLiteOk;
}
} // namespace
TFLMRegistration Register_UNIDIRECTIONAL_SEQUENCE_LSTM() {
return tflite::micro::RegisterOp(UnidirectionalSequenceLstmInit,
UnidirectionalSequenceLstmPrepare,
UnidirectionalSequenceLstmEval);
}
} // namespace tflite