| // |
| // Copyright © 2017 Arm Ltd. All rights reserved. |
| // SPDX-License-Identifier: MIT |
| // |
| |
| #include "RefNormalizationWorkload.hpp" |
| #include "RefWorkloadUtils.hpp" |
| #include "Decoders.hpp" |
| #include "Encoders.hpp" |
| |
| #include <armnn/Tensor.hpp> |
| |
| #include <armnnUtils/DataLayoutIndexed.hpp> |
| |
| #include <Profiling.hpp> |
| |
| #include <boost/numeric/conversion/cast.hpp> |
| |
| using namespace armnn; |
| using namespace armnnUtils; |
| |
| namespace |
| { |
| |
| // Helper function to compute "Within" normalization using Krichevsky 2012: Local Brightness Normalization. |
| void NormalizeWithinUingLbr(Decoder<float>& inputData, |
| Encoder<float>& outputData, |
| const TensorShape& tensorShape, |
| uint32_t norm_size, |
| float alpha, |
| float beta, |
| float kappa) |
| { |
| const unsigned int batchSize = tensorShape[0]; |
| const unsigned int depth = tensorShape[1]; |
| const unsigned int rows = tensorShape[2]; |
| const unsigned int cols = tensorShape[3]; |
| |
| int radius = boost::numeric_cast<int>(norm_size / 2u); /* Strong Assumption on rounding Mode */ |
| |
| for (unsigned int n = 0; n < batchSize; n++) |
| { |
| for (unsigned int c = 0; c < depth; c++) |
| { |
| for (unsigned int h = 0; h < rows; h++) |
| { |
| for (unsigned int w = 0; w < cols; w++) |
| { |
| float accumulated_scale = 0.0; |
| for (int y = -radius; y <= radius; y++) |
| { |
| for (int x = -radius; x <= radius; x++) |
| { |
| int i = boost::numeric_cast<int>(w) + x; |
| int j = boost::numeric_cast<int>(h) + y; |
| |
| if ((i < 0) || (i >= boost::numeric_cast<int>(cols))) |
| { |
| continue; |
| } |
| |
| if ((j < 0) || (j >= boost::numeric_cast<int>(rows))) |
| { |
| continue; |
| } |
| |
| unsigned int inputIndex = n * cols * rows * depth + |
| c * cols * rows + |
| boost::numeric_cast<unsigned int>(j) * cols + |
| boost::numeric_cast<unsigned int>(i); |
| inputData[inputIndex]; |
| float inval = inputData.Get(); |
| |
| accumulated_scale += inval*inval; |
| } |
| } |
| |
| unsigned int index = n * cols * rows * depth + |
| c * cols * rows + |
| h * cols + |
| w; |
| inputData[index]; |
| outputData[index]; |
| outputData.Set(inputData.Get() / (powf((kappa + (accumulated_scale * alpha)), beta))); |
| } |
| } |
| } |
| } |
| } |
| |
| // Helper function to compute "Across" normalization using Krichevsky 2012: Local Brightness Normalization. |
| void NormalizeAcrossUingLbr(Decoder<float>& inputData, |
| Encoder<float>& outputData, |
| const TensorShape& tensorShape, |
| uint32_t norm_size, |
| float alpha, |
| float beta, |
| float kappa, |
| DataLayout dataLayout) |
| { |
| DataLayoutIndexed dataLayoutIndexed(dataLayout); |
| |
| const unsigned int batchSize = tensorShape[0]; |
| const unsigned int depth = tensorShape[dataLayoutIndexed.GetChannelsIndex()]; |
| const unsigned int rows = tensorShape[dataLayoutIndexed.GetHeightIndex()]; |
| const unsigned int cols = tensorShape[dataLayoutIndexed.GetWidthIndex()]; |
| |
| int radius = boost::numeric_cast<int>(norm_size / 2u); /* Strong Assumption on rounding Mode */ |
| |
| for (unsigned int n = 0; n < batchSize; n++) |
| { |
| for (unsigned int c = 0; c < depth; c++) |
| { |
| for (unsigned int h = 0; h < rows; h++) |
| { |
| for (unsigned int w = 0; w < cols; w++) |
| { |
| float accumulated_scale = 0.0; |
| for (int z = -radius; z <= radius; z++) |
| { |
| int k = boost::numeric_cast<int>(c) + z; |
| |
| if ((k < 0) || (k >= boost::numeric_cast<int>(depth))) |
| { |
| continue; |
| } |
| |
| unsigned inputIndex = dataLayoutIndexed.GetIndex(tensorShape, |
| n, |
| boost::numeric_cast<unsigned int>(k), |
| h, |
| w); |
| |
| inputData[inputIndex]; |
| float inval = inputData.Get(); |
| |
| accumulated_scale += inval * inval; |
| } |
| |
| float scale = kappa + (accumulated_scale * alpha); |
| scale = powf(scale, -beta); |
| |
| unsigned index = dataLayoutIndexed.GetIndex(tensorShape, n, c, h, w); |
| |
| inputData[index]; |
| outputData[index]; |
| outputData.Set(scale * inputData.Get()); |
| } |
| } |
| } |
| } |
| } |
| |
| } // Anonymous namespace |
| |
| namespace armnn |
| { |
| |
| RefNormalizationWorkload::RefNormalizationWorkload(const NormalizationQueueDescriptor& descriptor, |
| const WorkloadInfo& info) |
| : BaseWorkload(descriptor, info) |
| {} |
| |
| void RefNormalizationWorkload::Execute() const |
| { |
| ARMNN_SCOPED_PROFILING_EVENT(Compute::CpuRef, "RefNormalizationWorkload_Execute"); |
| |
| const TensorInfo& inputInfo = GetTensorInfo(m_Data.m_Inputs[0]); |
| |
| auto inputDecoder = MakeDecoder<float>(inputInfo, m_Data.m_Inputs[0]->Map()); |
| auto outputEncoder = MakeEncoder<float>(inputInfo, m_Data.m_Outputs[0]->Map()); |
| |
| if (NormalizationAlgorithmMethod::LocalBrightness == m_Data.m_Parameters.m_NormMethodType) |
| { |
| if (NormalizationAlgorithmChannel::Within == m_Data.m_Parameters.m_NormChannelType) |
| { |
| NormalizeWithinUingLbr(*inputDecoder, |
| *outputEncoder, |
| inputInfo.GetShape(), |
| m_Data.m_Parameters.m_NormSize, |
| m_Data.m_Parameters.m_Alpha, |
| m_Data.m_Parameters.m_Beta, |
| m_Data.m_Parameters.m_K); |
| } |
| else if (NormalizationAlgorithmChannel::Across == m_Data.m_Parameters.m_NormChannelType) |
| { |
| NormalizeAcrossUingLbr(*inputDecoder, |
| *outputEncoder, |
| inputInfo.GetShape(), |
| m_Data.m_Parameters.m_NormSize, |
| m_Data.m_Parameters.m_Alpha, |
| m_Data.m_Parameters.m_Beta, |
| m_Data.m_Parameters.m_K, |
| m_Data.m_Parameters.m_DataLayout); |
| } |
| else |
| { |
| ARMNN_LOG(warning) << "Illegal NORMALIZATION mode in normalization_f32"; |
| return; |
| } |
| } |
| else |
| { |
| ARMNN_LOG(warning) << "Lcr method (Jarret 2009: Local Contrast Normalization) not supported yet."; |
| return; |
| } |
| } |
| |
| } // namespace armnn |
