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//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include "Network.hpp"
#include "QuantizerVisitor.hpp"
#include "StaticRangeVisitor.hpp"
#include <cmath>
#include <stdint.h>
#include <limits>
namespace armnn
{
namespace {
std::pair<int, float> ComputeQAsymmParams(int numBits, double min, double max)
{
BOOST_ASSERT_MSG(min < max, "Min >= max will result in invalid quantization.");
double highest = (1 << numBits)-1;
min = std::min(0.0, min); // min <= 0.0
max = std::max(0.0, max); // max >= 0.0
// assumes quantization range [0-highest]
double scale = (max-min) / highest;
double offset = -min / scale;
// clamp offset [0-highest]
offset = std::max(0.0, std::min(highest, offset));
return std::make_pair(static_cast<int>(std::round(offset)), static_cast<float>(scale));
}
} // namespace
QuantizerVisitor::QuantizerVisitor(armnn::StaticRangeVisitor* ranges)
: m_Ranges(ranges)
, m_QuantizedNetwork(INetwork::Create())
{
}
void QuantizerVisitor::SetQuantizedInputConnections(const IConnectableLayer *srcLayer,
IConnectableLayer *quantizedLayer)
{
m_OldToNewGuidMap[srcLayer->GetGuid()] = quantizedLayer->GetGuid();
for (unsigned int i=0; i < srcLayer->GetNumInputSlots(); i++)
{
const IInputSlot& srcInputSlot = srcLayer->GetInputSlot(i);
const InputSlot* inputSlot = boost::polymorphic_downcast<const InputSlot*>(&srcInputSlot);
const OutputSlot* outputSlot = inputSlot->GetConnectedOutputSlot();
unsigned int slotIdx = outputSlot->CalculateIndexOnOwner();
Layer& layerToFind = outputSlot->GetOwningLayer();
auto found = m_OldToNewGuidMap.find(layerToFind.GetGuid());
if (found != m_OldToNewGuidMap.end())
{
// Connect the slots in the quantized model
IConnectableLayer* prevQuantizedLayer = m_GuidToLayerMap[found->second];
IInputSlot& newInputSlot = quantizedLayer->GetInputSlot(i);
IOutputSlot& newOutputSlot = prevQuantizedLayer->GetOutputSlot(slotIdx);
newOutputSlot.Connect(newInputSlot);
// Fetch the min/max ranges that were computed earlier
auto range = m_Ranges->GetRange(layerToFind.GetGuid(), i);
auto qParams = ComputeQAsymmParams(8, range.first, range.second);
// Set the quantization params
TensorInfo info(newOutputSlot.GetTensorInfo());
info.SetDataType(DataType::QuantisedAsymm8);
info.SetQuantizationOffset(qParams.first);
info.SetQuantizationScale(qParams.second);
}
else
{
// error in graph traversal order
BOOST_ASSERT_MSG(false, "Error in graph traversal");
}
}
}
void QuantizerVisitor::RecordLayer(IConnectableLayer* layer)
{
m_GuidToLayerMap[layer->GetGuid()] = layer;
}
void QuantizerVisitor::VisitAdditionLayer(const IConnectableLayer *layer, const char *name)
{
IConnectableLayer* newLayer = m_QuantizedNetwork->AddAdditionLayer(name);
RecordLayer(newLayer);
SetQuantizedInputConnections(layer, newLayer);
}
void QuantizerVisitor::VisitInputLayer(const IConnectableLayer *layer, LayerBindingId id, const char *name)
{
IConnectableLayer* newLayer = m_QuantizedNetwork->AddInputLayer(id, name);
RecordLayer(newLayer);
}
void QuantizerVisitor::VisitOutputLayer(const IConnectableLayer *layer, LayerBindingId id, const char *name)
{
IConnectableLayer* newLayer = m_QuantizedNetwork->AddOutputLayer(id, name);
RecordLayer(newLayer);
SetQuantizedInputConnections(layer, newLayer);
}
} //namespace armnn
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