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author | telsoa01 <telmo.soares@arm.com> | 2018-03-09 14:13:49 +0000 |
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committer | telsoa01 <telmo.soares@arm.com> | 2018-03-09 14:13:49 +0000 |
commit | 4fcda0101ec3d110c1d6d7bee5c83416b645528a (patch) | |
tree | c9a70aeb2887006160c1b3d265c27efadb7bdbae /src/armnn/backends/test/FullyConnectedTestImpl.hpp | |
download | armnn-4fcda0101ec3d110c1d6d7bee5c83416b645528a.tar.gz |
Release 18.02
Change-Id: Id3c11dc5ee94ef664374a988fcc6901e9a232fa6
Diffstat (limited to 'src/armnn/backends/test/FullyConnectedTestImpl.hpp')
-rw-r--r-- | src/armnn/backends/test/FullyConnectedTestImpl.hpp | 286 |
1 files changed, 286 insertions, 0 deletions
diff --git a/src/armnn/backends/test/FullyConnectedTestImpl.hpp b/src/armnn/backends/test/FullyConnectedTestImpl.hpp new file mode 100644 index 0000000000..479da3fabc --- /dev/null +++ b/src/armnn/backends/test/FullyConnectedTestImpl.hpp @@ -0,0 +1,286 @@ +// +// Copyright © 2017 Arm Ltd. All rights reserved. +// See LICENSE file in the project root for full license information. +// + +template<typename T, typename B> +LayerTestResult<T, 2> SimpleFullyConnectedTestImpl( + armnn::IWorkloadFactory& workloadFactory, + armnn::TensorInfo inputTensorInfo, + armnn::TensorInfo outputTensorInfo, + armnn::TensorInfo weightsDesc, + armnn::TensorInfo biasesDesc, + boost::multi_array<T, 2> weights, + boost::multi_array<B, 1> bias, + boost::multi_array<T, 4> input, + bool biasEnabled, + bool transposeWeights) +{ + std::unique_ptr<armnn::ITensorHandle> inputHandle = workloadFactory.CreateTensorHandle(inputTensorInfo); + std::unique_ptr<armnn::ITensorHandle> outputHandle = workloadFactory.CreateTensorHandle(outputTensorInfo); + + armnn::FullyConnectedQueueDescriptor data; + armnn::WorkloadInfo info; + armnn::ScopedCpuTensorHandle weightsTensor(weightsDesc); + armnn::ScopedCpuTensorHandle biasTensor(biasesDesc); + + AllocateAndCopyDataToITensorHandle(&weightsTensor, &weights[0][0]); + AllocateAndCopyDataToITensorHandle(&biasTensor, &bias[0]); + + AddInputToWorkload(data, info, inputTensorInfo, inputHandle.get()); + AddOutputToWorkload(data, info, outputTensorInfo, outputHandle.get()); + data.m_Weight = &weightsTensor; + data.m_Bias = &biasTensor; + data.m_Parameters.m_BiasEnabled = biasEnabled; + data.m_Parameters.m_TransposeWeightMatrix = transposeWeights; + + std::unique_ptr<armnn::IWorkload> workload = workloadFactory.CreateFullyConnected(data, info); + LayerTestResult<T, 2> result(outputTensorInfo); + + inputHandle->Allocate(); + outputHandle->Allocate(); + CopyDataToITensorHandle(inputHandle.get(), &input[0][0][0][0]); + + workload->Execute(); + + CopyDataFromITensorHandle(&result.output[0][0], outputHandle.get()); + + return result; +} + +LayerTestResult<float, 2> FullyConnectedFloat32Test(armnn::IWorkloadFactory& workloadFactory, bool biasEnabled, + bool transposeWeights) +{ + unsigned int inputWidth = 1; + unsigned int inputHeight = 1; + unsigned int inputChannels = 5; + unsigned int inputNum = 2; + + unsigned int outputChannels = 3; + unsigned int outputNum = 2; + + // Define the tensor descriptors + armnn::TensorInfo inputTensorInfo; + armnn::TensorInfo outputTensorInfo; + armnn::TensorInfo weightsDesc; + armnn::TensorInfo biasesDesc; + + unsigned int inputShape[] = { inputNum, inputChannels, inputHeight, inputWidth }; + unsigned int outputShape[] = { outputNum, outputChannels }; + unsigned int weightsShape[] = { inputChannels, outputChannels }; + if (transposeWeights) + { + std::swap(weightsShape[0], weightsShape[1]); + } + unsigned int biasShape[] = { outputChannels }; + + inputTensorInfo = armnn::TensorInfo(4, inputShape, armnn::DataType::Float32); + outputTensorInfo = armnn::TensorInfo(2, outputShape, armnn::DataType::Float32); + weightsDesc = armnn::TensorInfo(2, weightsShape, armnn::DataType::Float32); + biasesDesc = armnn::TensorInfo(1, biasShape, armnn::DataType::Float32); + + LayerTestResult<float, 2> result(outputTensorInfo); + + boost::multi_array<float, 4> input = MakeTensor<float, 4>(inputTensorInfo, std::vector<float>( + { + 1.0f, 2.0f, 3.0f, 4.0f, 5.0f, + + 5.0f, 4.0f, 3.0f, 2.0f, 1.0f + }) + ); + + boost::multi_array<float, 2> weights = MakeTensor<float, 2>(weightsDesc, std::vector<float>( + { + .5f, 2.f, .5f, + .5f, 2.f, 1.f, + .5f, 2.f, 2.f, + .5f, 2.f, 3.f, + .5f, 2.f, 4.f + })); + + if (transposeWeights) + { + weights = MakeTensor<float, 2>(weightsDesc, std::vector<float>( + { + .5f, .5f, .5f, .5f, .5f, + 2.f, 2.f, 2.f, 2.f, 2.f, + .5f, 1.f, 2.f, 3.f, 4.f + })); + } + + + std::vector<float> biasValues({0.f, 0.f, 0.f}); + if (biasEnabled) + { + biasValues = std::vector<float>({10.f, 20.f, 30.f}); + } + boost::multi_array<float, 1> bias = MakeTensor<float, 1>(biasesDesc, biasValues); + + result = SimpleFullyConnectedTestImpl<float>( + workloadFactory, + inputTensorInfo, outputTensorInfo, + weightsDesc, biasesDesc, + weights, bias, input, + biasEnabled, transposeWeights + ); + + result.outputExpected = MakeTensor<float, 2>(outputTensorInfo, std::vector<float>( + { + 0.5f + 1.0f + 1.5f + 2.0f + 2.5f + biasValues[0], + 2.0f + 4.0f + 6.0f + 8.0f + 10.f + biasValues[1], + 0.5f + 2.0f + 6.0f + 12.f + 20.f + biasValues[2], + + 2.5f + 2.0f + 1.5f + 1.0f + 0.5f + biasValues[0], + 10.0f + 8.0f + 6.0f + 4.0f + 2.f + biasValues[1], + 2.5f + 4.0f + 6.0f + 6.f + 4.f + biasValues[2] + }) + ); + + return result; +} + +LayerTestResult<uint8_t, 2> FullyConnectedUint8Test(armnn::IWorkloadFactory& workloadFactory, bool biasEnabled) +{ + constexpr static unsigned int inputWidth = 3u; + constexpr static unsigned int inputHeight = 2u; + constexpr static unsigned int inputChannels = 1u; + + constexpr static unsigned int inputSize = inputWidth * inputHeight * inputChannels; + + constexpr static unsigned int outputChannels = 2u; + + armnn::TensorInfo inputTensorInfo({ 1, inputChannels, inputHeight, inputWidth }, armnn::DataType::QuantisedAsymm8); + inputTensorInfo.SetQuantizationScale(0.1f); + inputTensorInfo.SetQuantizationOffset(63); + + armnn::TensorInfo outputTensorInfo({ 1, outputChannels }, armnn::DataType::QuantisedAsymm8); + outputTensorInfo.SetQuantizationScale(5.f); + outputTensorInfo.SetQuantizationOffset(biasEnabled ? -50 : 10); + + armnn::TensorInfo weightsDesc({ outputChannels, inputSize }, armnn::DataType::QuantisedAsymm8); + weightsDesc.SetQuantizationScale(0.2f); + weightsDesc.SetQuantizationOffset(93); + + armnn::TensorInfo biasesDesc({ outputChannels }, armnn::DataType::Signed32); + biasesDesc.SetQuantizationScale(inputTensorInfo.GetQuantizationScale() * weightsDesc.GetQuantizationScale()); + biasesDesc.SetQuantizationOffset(0); + + LayerTestResult<uint8_t, 2> result(outputTensorInfo); + + auto input = MakeTensor<uint8_t, 4>(inputTensorInfo, std::vector<uint8_t>{51, 124, 28, + 251, 8, 92}); + + auto weights = MakeTensor<uint8_t, 2>(weightsDesc, std::vector<uint8_t>{51, 193, 42, 53, 175, 34, + 210, 145, 23, 74, 34, 150}); + + // scale = 0.02 + // offset = 0 + auto bias = MakeTensor<int32_t, 1>(biasesDesc, std::vector<int32_t>{9250, 67500}); + + result = SimpleFullyConnectedTestImpl<uint8_t>( + workloadFactory, + inputTensorInfo, outputTensorInfo, + weightsDesc, biasesDesc, + weights, bias, input, + biasEnabled, true + ); + + // manually calculated + // note one of these values has been clamped to 0 + if (biasEnabled) + { + result.outputExpected = MakeTensor<uint8_t, 2>(outputTensorInfo, std::vector<uint8_t>{0, 242}); + } + else + { + result.outputExpected = MakeTensor<uint8_t, 2>(outputTensorInfo, std::vector<uint8_t>{0, 32}); + } + + return result; +} + + + +// +// ArmNN variant of the AndroidNN fully_connected_float_large test. +// +// Tests the fully connected layer with large values, optionally transposing weights. +// Note this is templated for consistency, but the nature of this tests makes it unlikely to be useful in Uint8 mode. +// +template<typename T> +LayerTestResult<T, 2> FullyConnectedLargeTestCommon(armnn::IWorkloadFactory& workloadFactory, + bool transposeWeights, + float qScale = 0.0f, + int32_t qOffset = 0) +{ + unsigned int inputWidth = 1; + unsigned int inputHeight = 1; + unsigned int inputChannels = 5; + unsigned int inputNum = 1; + + unsigned int outputChannels = 1; + unsigned int outputNum = 1; + + // Define the tensor descriptors + armnn::TensorInfo inputTensorInfo; + armnn::TensorInfo outputTensorInfo; + armnn::TensorInfo weightsDesc; + armnn::TensorInfo biasesDesc; + + unsigned int inputShape[] = { inputNum, inputChannels, inputHeight, inputWidth }; + unsigned int outputShape[] = { outputNum, outputChannels }; + unsigned int weightsShape[] = { inputChannels, outputChannels }; + if (transposeWeights) + { + std::swap(weightsShape[0], weightsShape[1]); + } + + unsigned int biasShape[] = { outputChannels }; + + inputTensorInfo = armnn::TensorInfo(4, inputShape, armnn::GetDataType<T>()); + outputTensorInfo = armnn::TensorInfo(2, outputShape, armnn::GetDataType<T>()); + weightsDesc = armnn::TensorInfo(2, weightsShape, armnn::GetDataType<T>()); + biasesDesc = armnn::TensorInfo(1, biasShape, armnn::GetDataType<T>()); + + // Set quantization parameters if the requested type is a quantized type. + if(armnn::IsQuantizedType<T>()) + { + inputTensorInfo.SetQuantizationScale(qScale); + inputTensorInfo.SetQuantizationOffset(qOffset); + outputTensorInfo.SetQuantizationScale(qScale); + outputTensorInfo.SetQuantizationOffset(qOffset); + } + + LayerTestResult<T, 2> result(outputTensorInfo); + + boost::multi_array<T, 4> input = MakeTensor<T, 4>(inputTensorInfo, + QuantizedVector<T>(qScale, qOffset, { + 1.0f, 10.0f, 100.0f, 1000.0f, 10000.0f, + }) + ); + + boost::multi_array<T, 2> weights = MakeTensor<T, 2>(weightsDesc, + QuantizedVector<T>(qScale, qOffset, { + 2.0f, 3.0f, 4.0f, 5.0f, 6.0f + }) + ); + + std::vector<T> biasValues({900000.f}); + boost::multi_array<T, 1> bias = MakeTensor<T, 1>(biasesDesc, biasValues); + + result = SimpleFullyConnectedTestImpl<T>( + workloadFactory, + inputTensorInfo, outputTensorInfo, + weightsDesc, biasesDesc, + weights, bias, input, + true, transposeWeights + ); + + result.outputExpected = MakeTensor<T, 2>(outputTensorInfo, + QuantizedVector<T>(qScale, qOffset, { + 965432.0f, + }) + ); + + return result; +} |