diff options
Diffstat (limited to 'source/application/api/use_case/ad/src')
4 files changed, 660 insertions, 0 deletions
diff --git a/source/application/api/use_case/ad/src/AdMelSpectrogram.cc b/source/application/api/use_case/ad/src/AdMelSpectrogram.cc new file mode 100644 index 0000000..14b9323 --- /dev/null +++ b/source/application/api/use_case/ad/src/AdMelSpectrogram.cc @@ -0,0 +1,93 @@ +/* + * Copyright (c) 2021 Arm Limited. All rights reserved. + * SPDX-License-Identifier: Apache-2.0 + * + * 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. + */ +#include "AdMelSpectrogram.hpp" +#include "PlatformMath.hpp" +#include "log_macros.h" + +#include <cfloat> + +namespace arm { +namespace app { +namespace audio { + + bool AdMelSpectrogram::ApplyMelFilterBank( + std::vector<float>& fftVec, + std::vector<std::vector<float>>& melFilterBank, + std::vector<uint32_t>& filterBankFilterFirst, + std::vector<uint32_t>& filterBankFilterLast, + std::vector<float>& melEnergies) + { + const size_t numBanks = melEnergies.size(); + + if (numBanks != filterBankFilterFirst.size() || + numBanks != filterBankFilterLast.size()) { + printf_err("unexpected filter bank lengths\n"); + return false; + } + + for (size_t bin = 0; bin < numBanks; ++bin) { + auto filterBankIter = melFilterBank[bin].begin(); + auto end = melFilterBank[bin].end(); + float melEnergy = FLT_MIN; /* Avoid log of zero at later stages. */ + const uint32_t firstIndex = filterBankFilterFirst[bin]; + const uint32_t lastIndex = std::min<int32_t>(filterBankFilterLast[bin], fftVec.size() - 1); + + for (uint32_t i = firstIndex; i <= lastIndex && filterBankIter != end; ++i) { + melEnergy += (*filterBankIter++ * fftVec[i]); + } + + melEnergies[bin] = melEnergy; + } + + return true; + } + + void AdMelSpectrogram::ConvertToLogarithmicScale( + std::vector<float>& melEnergies) + { + /* Container for natural logarithms of mel energies */ + std::vector <float> vecLogEnergies(melEnergies.size(), 0.f); + + /* Because we are taking natural logs, we need to multiply by log10(e). + * Also, for wav2letter model, we scale our log10 values by 10 */ + constexpr float multiplier = 10.0 * /* default scalar */ + 0.4342944819032518; /* log10f(std::exp(1.0))*/ + + /* Take log of the whole vector */ + math::MathUtils::VecLogarithmF32(melEnergies, vecLogEnergies); + + /* Scale the log values. */ + for (auto iterM = melEnergies.begin(), iterL = vecLogEnergies.begin(); + iterM != melEnergies.end() && iterL != vecLogEnergies.end(); ++iterM, ++iterL) { + + *iterM = *iterL * multiplier; + } + } + + float AdMelSpectrogram::GetMelFilterBankNormaliser( + const float& leftMel, + const float& rightMel, + const bool useHTKMethod) + { + /* Slaney normalization for mel weights. */ + return (2.0f / (AdMelSpectrogram::InverseMelScale(rightMel, useHTKMethod) - + AdMelSpectrogram::InverseMelScale(leftMel, useHTKMethod))); + } + +} /* namespace audio */ +} /* namespace app */ +} /* namespace arm */ diff --git a/source/application/api/use_case/ad/src/AdModel.cc b/source/application/api/use_case/ad/src/AdModel.cc new file mode 100644 index 0000000..961c260 --- /dev/null +++ b/source/application/api/use_case/ad/src/AdModel.cc @@ -0,0 +1,41 @@ +/* + * Copyright (c) 2021 Arm Limited. All rights reserved. + * SPDX-License-Identifier: Apache-2.0 + * + * 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. + */ +#include "AdModel.hpp" +#include "log_macros.h" + +const tflite::MicroOpResolver& arm::app::AdModel::GetOpResolver() +{ + return this->m_opResolver; +} + +bool arm::app::AdModel::EnlistOperations() +{ + this->m_opResolver.AddAveragePool2D(); + this->m_opResolver.AddConv2D(); + this->m_opResolver.AddDepthwiseConv2D(); + this->m_opResolver.AddRelu6(); + this->m_opResolver.AddReshape(); + + if (kTfLiteOk == this->m_opResolver.AddEthosU()) { + info("Added %s support to op resolver\n", + tflite::GetString_ETHOSU()); + } else { + printf_err("Failed to add Arm NPU support to op resolver."); + return false; + } + return true; +} diff --git a/source/application/api/use_case/ad/src/AdProcessing.cc b/source/application/api/use_case/ad/src/AdProcessing.cc new file mode 100644 index 0000000..fb26a83 --- /dev/null +++ b/source/application/api/use_case/ad/src/AdProcessing.cc @@ -0,0 +1,210 @@ +/* + * Copyright (c) 2022 Arm Limited. All rights reserved. + * SPDX-License-Identifier: Apache-2.0 + * + * 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. + */ +#include "AdProcessing.hpp" + +#include "AdModel.hpp" + +namespace arm { +namespace app { + +AdPreProcess::AdPreProcess(TfLiteTensor* inputTensor, + uint32_t melSpectrogramFrameLen, + uint32_t melSpectrogramFrameStride, + float adModelTrainingMean): + m_validInstance{false}, + m_melSpectrogramFrameLen{melSpectrogramFrameLen}, + m_melSpectrogramFrameStride{melSpectrogramFrameStride}, + /**< Model is trained on features downsampled 2x */ + m_inputResizeScale{2}, + /**< We are choosing to move by 20 frames across the audio for each inference. */ + m_numMelSpecVectorsInAudioStride{20}, + m_audioDataStride{m_numMelSpecVectorsInAudioStride * melSpectrogramFrameStride}, + m_melSpec{melSpectrogramFrameLen} +{ + UNUSED(this->m_melSpectrogramFrameStride); + + if (!inputTensor) { + printf_err("Invalid input tensor provided to pre-process\n"); + return; + } + + TfLiteIntArray* inputShape = inputTensor->dims; + + if (!inputShape) { + printf_err("Invalid input tensor dims\n"); + return; + } + + const uint32_t kNumRows = inputShape->data[AdModel::ms_inputRowsIdx]; + const uint32_t kNumCols = inputShape->data[AdModel::ms_inputColsIdx]; + + /* Deduce the data length required for 1 inference from the network parameters. */ + this->m_audioDataWindowSize = (((this->m_inputResizeScale * kNumCols) - 1) * + melSpectrogramFrameStride) + + melSpectrogramFrameLen; + this->m_numReusedFeatureVectors = kNumRows - + (this->m_numMelSpecVectorsInAudioStride / + this->m_inputResizeScale); + this->m_melSpec.Init(); + + /* Creating a Mel Spectrogram sliding window for the data required for 1 inference. + * "resizing" done here by multiplying stride by resize scale. */ + this->m_melWindowSlider = audio::SlidingWindow<const int16_t>( + nullptr, /* to be populated later. */ + this->m_audioDataWindowSize, + melSpectrogramFrameLen, + melSpectrogramFrameStride * this->m_inputResizeScale); + + /* Construct feature calculation function. */ + this->m_featureCalc = GetFeatureCalculator(this->m_melSpec, inputTensor, + this->m_numReusedFeatureVectors, + adModelTrainingMean); + this->m_validInstance = true; +} + +bool AdPreProcess::DoPreProcess(const void* input, size_t inputSize) +{ + /* Check that we have a valid instance. */ + if (!this->m_validInstance) { + printf_err("Invalid pre-processor instance\n"); + return false; + } + + /* We expect that we can traverse the size with which the MEL spectrogram + * sliding window was initialised with. */ + if (!input || inputSize < this->m_audioDataWindowSize) { + printf_err("Invalid input provided for pre-processing\n"); + return false; + } + + /* We moved to the next window - set the features sliding to the new address. */ + this->m_melWindowSlider.Reset(static_cast<const int16_t*>(input)); + + /* The first window does not have cache ready. */ + const bool useCache = this->m_audioWindowIndex > 0 && this->m_numReusedFeatureVectors > 0; + + /* Start calculating features inside one audio sliding window. */ + while (this->m_melWindowSlider.HasNext()) { + const int16_t* melSpecWindow = this->m_melWindowSlider.Next(); + std::vector<int16_t> melSpecAudioData = std::vector<int16_t>( + melSpecWindow, + melSpecWindow + this->m_melSpectrogramFrameLen); + + /* Compute features for this window and write them to input tensor. */ + this->m_featureCalc(melSpecAudioData, + this->m_melWindowSlider.Index(), + useCache, + this->m_numMelSpecVectorsInAudioStride, + this->m_inputResizeScale); + } + + return true; +} + +uint32_t AdPreProcess::GetAudioWindowSize() +{ + return this->m_audioDataWindowSize; +} + +uint32_t AdPreProcess::GetAudioDataStride() +{ + return this->m_audioDataStride; +} + +void AdPreProcess::SetAudioWindowIndex(uint32_t idx) +{ + this->m_audioWindowIndex = idx; +} + +AdPostProcess::AdPostProcess(TfLiteTensor* outputTensor) : + m_outputTensor {outputTensor} +{} + +bool AdPostProcess::DoPostProcess() +{ + switch (this->m_outputTensor->type) { + case kTfLiteInt8: + this->Dequantize<int8_t>(); + break; + default: + printf_err("Unsupported tensor type"); + return false; + } + + math::MathUtils::SoftmaxF32(this->m_dequantizedOutputVec); + return true; +} + +float AdPostProcess::GetOutputValue(uint32_t index) +{ + if (index < this->m_dequantizedOutputVec.size()) { + return this->m_dequantizedOutputVec[index]; + } + printf_err("Invalid index for output\n"); + return 0.0; +} + +std::function<void (std::vector<int16_t>&, int, bool, size_t, size_t)> +GetFeatureCalculator(audio::AdMelSpectrogram& melSpec, + TfLiteTensor* inputTensor, + size_t cacheSize, + float trainingMean) +{ + std::function<void (std::vector<int16_t>&, size_t, bool, size_t, size_t)> melSpecFeatureCalc; + + TfLiteQuantization quant = inputTensor->quantization; + + if (kTfLiteAffineQuantization == quant.type) { + + auto* quantParams = static_cast<TfLiteAffineQuantization*>(quant.params); + const float quantScale = quantParams->scale->data[0]; + const int quantOffset = quantParams->zero_point->data[0]; + + switch (inputTensor->type) { + case kTfLiteInt8: { + melSpecFeatureCalc = FeatureCalc<int8_t>( + inputTensor, + cacheSize, + [=, &melSpec](std::vector<int16_t>& audioDataWindow) { + return melSpec.MelSpecComputeQuant<int8_t>( + audioDataWindow, + quantScale, + quantOffset, + trainingMean); + } + ); + break; + } + default: + printf_err("Tensor type %s not supported\n", TfLiteTypeGetName(inputTensor->type)); + } + } else { + melSpecFeatureCalc = FeatureCalc<float>( + inputTensor, + cacheSize, + [=, &melSpec]( + std::vector<int16_t>& audioDataWindow) { + return melSpec.ComputeMelSpec( + audioDataWindow, + trainingMean); + }); + } + return melSpecFeatureCalc; +} + +} /* namespace app */ +} /* namespace arm */ diff --git a/source/application/api/use_case/ad/src/MelSpectrogram.cc b/source/application/api/use_case/ad/src/MelSpectrogram.cc new file mode 100644 index 0000000..ff0c536 --- /dev/null +++ b/source/application/api/use_case/ad/src/MelSpectrogram.cc @@ -0,0 +1,316 @@ +/* + * Copyright (c) 2021 Arm Limited. All rights reserved. + * SPDX-License-Identifier: Apache-2.0 + * + * 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. + */ +#include "MelSpectrogram.hpp" + +#include "PlatformMath.hpp" +#include "log_macros.h" + +#include <cfloat> +#include <cinttypes> + +namespace arm { +namespace app { +namespace audio { + + MelSpecParams::MelSpecParams( + const float samplingFreq, + const uint32_t numFbankBins, + const float melLoFreq, + const float melHiFreq, + const uint32_t frameLen, + const bool useHtkMethod): + m_samplingFreq(samplingFreq), + m_numFbankBins(numFbankBins), + m_melLoFreq(melLoFreq), + m_melHiFreq(melHiFreq), + m_frameLen(frameLen), + + /* Smallest power of 2 >= frame length. */ + m_frameLenPadded(pow(2, ceil((log(frameLen)/log(2))))), + m_useHtkMethod(useHtkMethod) + {} + + std::string MelSpecParams::Str() const + { + char strC[1024]; + snprintf(strC, sizeof(strC) - 1, "\n \ + \n\t Sampling frequency: %f\ + \n\t Number of filter banks: %" PRIu32 "\ + \n\t Mel frequency limit (low): %f\ + \n\t Mel frequency limit (high): %f\ + \n\t Frame length: %" PRIu32 "\ + \n\t Padded frame length: %" PRIu32 "\ + \n\t Using HTK for Mel scale: %s\n", + this->m_samplingFreq, this->m_numFbankBins, this->m_melLoFreq, + this->m_melHiFreq, this->m_frameLen, + this->m_frameLenPadded, this->m_useHtkMethod ? "yes" : "no"); + return std::string{strC}; + } + + MelSpectrogram::MelSpectrogram(const MelSpecParams& params): + m_params(params), + m_filterBankInitialised(false) + { + this->m_buffer = std::vector<float>( + this->m_params.m_frameLenPadded, 0.0); + this->m_frame = std::vector<float>( + this->m_params.m_frameLenPadded, 0.0); + this->m_melEnergies = std::vector<float>( + this->m_params.m_numFbankBins, 0.0); + + this->m_windowFunc = std::vector<float>(this->m_params.m_frameLen); + const auto multiplier = static_cast<float>(2 * M_PI / this->m_params.m_frameLen); + + /* Create window function. */ + for (size_t i = 0; i < this->m_params.m_frameLen; ++i) { + this->m_windowFunc[i] = (0.5 - (0.5 * + math::MathUtils::CosineF32(static_cast<float>(i) * multiplier))); + } + + math::MathUtils::FftInitF32(this->m_params.m_frameLenPadded, this->m_fftInstance); + debug("Instantiated Mel Spectrogram object: %s\n", this->m_params.Str().c_str()); + } + + void MelSpectrogram::Init() + { + this->InitMelFilterBank(); + } + + float MelSpectrogram::MelScale(const float freq, const bool useHTKMethod) + { + if (useHTKMethod) { + return 1127.0f * logf (1.0f + freq / 700.0f); + } else { + /* Slaney formula for mel scale. */ + float mel = freq / ms_freqStep; + + if (freq >= ms_minLogHz) { + mel = ms_minLogMel + logf(freq / ms_minLogHz) / ms_logStep; + } + return mel; + } + } + + float MelSpectrogram::InverseMelScale(const float melFreq, const bool useHTKMethod) + { + if (useHTKMethod) { + return 700.0f * (expf (melFreq / 1127.0f) - 1.0f); + } else { + /* Slaney formula for inverse mel scale. */ + float freq = ms_freqStep * melFreq; + + if (melFreq >= ms_minLogMel) { + freq = ms_minLogHz * expf(ms_logStep * (melFreq - ms_minLogMel)); + } + return freq; + } + } + + bool MelSpectrogram::ApplyMelFilterBank( + std::vector<float>& fftVec, + std::vector<std::vector<float>>& melFilterBank, + std::vector<uint32_t>& filterBankFilterFirst, + std::vector<uint32_t>& filterBankFilterLast, + std::vector<float>& melEnergies) + { + const size_t numBanks = melEnergies.size(); + + if (numBanks != filterBankFilterFirst.size() || + numBanks != filterBankFilterLast.size()) { + printf_err("unexpected filter bank lengths\n"); + return false; + } + + for (size_t bin = 0; bin < numBanks; ++bin) { + auto filterBankIter = melFilterBank[bin].begin(); + auto end = melFilterBank[bin].end(); + float melEnergy = FLT_MIN; /* Avoid log of zero at later stages */ + const uint32_t firstIndex = filterBankFilterFirst[bin]; + const uint32_t lastIndex = std::min<int32_t>(filterBankFilterLast[bin], fftVec.size() - 1); + + for (uint32_t i = firstIndex; i <= lastIndex && filterBankIter != end; ++i) { + float energyRep = math::MathUtils::SqrtF32(fftVec[i]); + melEnergy += (*filterBankIter++ * energyRep); + } + + melEnergies[bin] = melEnergy; + } + + return true; + } + + void MelSpectrogram::ConvertToLogarithmicScale(std::vector<float>& melEnergies) + { + for (float& melEnergy : melEnergies) { + melEnergy = logf(melEnergy); + } + } + + void MelSpectrogram::ConvertToPowerSpectrum() + { + const uint32_t halfDim = this->m_buffer.size() / 2; + + /* Handle this special case. */ + float firstEnergy = this->m_buffer[0] * this->m_buffer[0]; + float lastEnergy = this->m_buffer[1] * this->m_buffer[1]; + + math::MathUtils::ComplexMagnitudeSquaredF32( + this->m_buffer.data(), + this->m_buffer.size(), + this->m_buffer.data(), + this->m_buffer.size()/2); + + this->m_buffer[0] = firstEnergy; + this->m_buffer[halfDim] = lastEnergy; + } + + float MelSpectrogram::GetMelFilterBankNormaliser( + const float& leftMel, + const float& rightMel, + const bool useHTKMethod) + { + UNUSED(leftMel); + UNUSED(rightMel); + UNUSED(useHTKMethod); + + /* By default, no normalisation => return 1 */ + return 1.f; + } + + void MelSpectrogram::InitMelFilterBank() + { + if (!this->IsMelFilterBankInited()) { + this->m_melFilterBank = this->CreateMelFilterBank(); + this->m_filterBankInitialised = true; + } + } + + bool MelSpectrogram::IsMelFilterBankInited() const + { + return this->m_filterBankInitialised; + } + + std::vector<float> MelSpectrogram::ComputeMelSpec(const std::vector<int16_t>& audioData, float trainingMean) + { + this->InitMelFilterBank(); + + /* TensorFlow way of normalizing .wav data to (-1, 1). */ + constexpr float normaliser = 1.0/(1<<15); + for (size_t i = 0; i < this->m_params.m_frameLen; ++i) { + this->m_frame[i] = static_cast<float>(audioData[i]) * normaliser; + } + + /* Apply window function to input frame. */ + for(size_t i = 0; i < this->m_params.m_frameLen; ++i) { + this->m_frame[i] *= this->m_windowFunc[i]; + } + + /* Set remaining frame values to 0. */ + std::fill(this->m_frame.begin() + this->m_params.m_frameLen,this->m_frame.end(), 0); + + /* Compute FFT. */ + math::MathUtils::FftF32(this->m_frame, this->m_buffer, this->m_fftInstance); + + /* Convert to power spectrum. */ + this->ConvertToPowerSpectrum(); + + /* Apply mel filterbanks. */ + if (!this->ApplyMelFilterBank(this->m_buffer, + this->m_melFilterBank, + this->m_filterBankFilterFirst, + this->m_filterBankFilterLast, + this->m_melEnergies)) { + printf_err("Failed to apply MEL filter banks\n"); + } + + /* Convert to logarithmic scale */ + this->ConvertToLogarithmicScale(this->m_melEnergies); + + /* Perform mean subtraction. */ + for (auto& energy:this->m_melEnergies) { + energy -= trainingMean; + } + + return this->m_melEnergies; + } + + std::vector<std::vector<float>> MelSpectrogram::CreateMelFilterBank() + { + size_t numFftBins = this->m_params.m_frameLenPadded / 2; + float fftBinWidth = static_cast<float>(this->m_params.m_samplingFreq) / this->m_params.m_frameLenPadded; + + float melLowFreq = MelSpectrogram::MelScale(this->m_params.m_melLoFreq, + this->m_params.m_useHtkMethod); + float melHighFreq = MelSpectrogram::MelScale(this->m_params.m_melHiFreq, + this->m_params.m_useHtkMethod); + float melFreqDelta = (melHighFreq - melLowFreq) / (this->m_params.m_numFbankBins + 1); + + std::vector<float> thisBin = std::vector<float>(numFftBins); + std::vector<std::vector<float>> melFilterBank( + this->m_params.m_numFbankBins); + this->m_filterBankFilterFirst = + std::vector<uint32_t>(this->m_params.m_numFbankBins); + this->m_filterBankFilterLast = + std::vector<uint32_t>(this->m_params.m_numFbankBins); + + for (size_t bin = 0; bin < this->m_params.m_numFbankBins; bin++) { + float leftMel = melLowFreq + bin * melFreqDelta; + float centerMel = melLowFreq + (bin + 1) * melFreqDelta; + float rightMel = melLowFreq + (bin + 2) * melFreqDelta; + + uint32_t firstIndex = 0; + uint32_t lastIndex = 0; + bool firstIndexFound = false; + const float normaliser = this->GetMelFilterBankNormaliser(leftMel, rightMel, this->m_params.m_useHtkMethod); + + for (size_t i = 0; i < numFftBins; ++i) { + float freq = (fftBinWidth * i); /* Center freq of this fft bin. */ + float mel = MelSpectrogram::MelScale(freq, this->m_params.m_useHtkMethod); + thisBin[i] = 0.0; + + if (mel > leftMel && mel < rightMel) { + float weight; + if (mel <= centerMel) { + weight = (mel - leftMel) / (centerMel - leftMel); + } else { + weight = (rightMel - mel) / (rightMel - centerMel); + } + + thisBin[i] = weight * normaliser; + if (!firstIndexFound) { + firstIndex = i; + firstIndexFound = true; + } + lastIndex = i; + } + } + + this->m_filterBankFilterFirst[bin] = firstIndex; + this->m_filterBankFilterLast[bin] = lastIndex; + + /* Copy the part we care about. */ + for (uint32_t i = firstIndex; i <= lastIndex; ++i) { + melFilterBank[bin].push_back(thisBin[i]); + } + } + + return melFilterBank; + } + +} /* namespace audio */ +} /* namespace app */ +} /* namespace arm */ |