Added doc for fake_quant_with_min_max* op helpers implementations.
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c3f755d975
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@ -25,43 +25,54 @@ namespace nd4j {
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namespace ops {
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namespace helpers {
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//
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// nudge - nudged min max over scale
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// scale = (Max - Min) / (quantMax - quantMin)
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// quantMin = 0 or 1, quantMax = 2^b - 1 == (1 << b) - 1
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//
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template <typename T>
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static void nudge(T min, T max, int quant_min, int quant_max, T* scale, T* nudged_min, T* nudged_max) {
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T quant_max_float = static_cast<T>(quant_max);
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T quant_min_float = static_cast<T>(quant_min);
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*scale = (max - min) / (quant_max_float - quant_min_float);
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auto zero_point_from_min = quant_min_float - min / *scale;
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uint16_t const nudged_zero_point = [zero_point_from_min, quant_min, quant_max, quant_max_float, quant_min_float] {
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if (zero_point_from_min < quant_min_float) {
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return static_cast<uint16_t>(quant_min);
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static void nudge(T min, T max, int quantMin, int quantMax, T* scale, T* nudgedMin, T* nudgedMax) {
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// floating point instead integers
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T quantMaxF = static_cast<T>(quantMax);
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T quantMinF = static_cast<T>(quantMin);
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// compute scale
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*scale = (max - min) / (quantMaxF - quantMinF);
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// compute left bound point
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auto zeroPointFromMin = quantMinF - min / *scale;
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// bound zero point to conform with range [0 or 1, 2^b - 1]
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uint16_t const nudged_zero_point = [zeroPointFromMin, quantMin, quantMax, quantMaxF, quantMinF] {
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if (zeroPointFromMin < quantMinF) {
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return static_cast<uint16_t>(quantMin);
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}
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if (zero_point_from_min > quant_max_float) {
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return static_cast<uint16_t>(quant_max);
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if (zeroPointFromMin > quantMaxF) {
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return static_cast<uint16_t>(quantMax);
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}
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return nd4j::math::nd4j_round<T,uint16_t>(zero_point_from_min);
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}();
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*nudged_min = (quant_min_float - nudged_zero_point) * (*scale);
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*nudged_max = (quant_max_float - nudged_zero_point) * (*scale);
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return nd4j::math::nd4j_round<T,uint16_t>(zeroPointFromMin);
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}();
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// compute nudged min and max with computed nudged zero point
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*nudgedMin = (quantMinF - nudged_zero_point) * (*scale);
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*nudgedMax = (quantMaxF - nudged_zero_point) * (*scale);
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}
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template <typename T>
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void fakeQuantWithMinMaxVarsPerChannel_(NDArray* input, NDArray* min, NDArray* max, int numBits, bool narrowed, NDArray* output) {
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int lowIntBound = narrowed ? 1 : 0;
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int upperIntBound = (1 << numBits) - 1;
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auto channels = input->sizeAt(-1);
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int lowIntBound = narrowed ? 1 : 0; // 0 or 1
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int upperIntBound = (1 << numBits) - 1; // 2^b - 1
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auto channels = input->sizeAt(-1); // last dimension
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PRAGMA_OMP_PARALLEL_FOR
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for (auto i = 0; i < channels; i++) {
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T scale, nudged_min, nudged_max;
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// nudge min and max first, with scale computing
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nudge<T>(min->t<T>(i), max->t<T>(i), lowIntBound, upperIntBound, &scale, &nudged_min, &nudged_max);
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// slide using last dimension and process all for given channel
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for (auto e = 0; e < input->lengthOf(); e += channels) {
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T val = input->t<T>(e + i);
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if ( val <= nudged_min)
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val = nudged_min;
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else if (val >= nudged_max)
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val = nudged_max;
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// quantization itself
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output->t<T>(e + i) = math::nd4j_floor<T,T>((val - nudged_min)/scale + T(0.5)) * scale + nudged_min;
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}
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}
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@ -73,16 +84,17 @@ namespace helpers {
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int upperIntBound = (1 << numBits) - 1;
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T nudgedMin, nudgedMax, scale;
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// nudge with given min and max and compute scale and nudged min and max
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nudge<T>(min->t<T>(0), max->t<T>(0), lowIntBound, upperIntBound, &scale, &nudgedMin, &nudgedMax);
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// quantization as one
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auto fakeQuantizationWithMinMax = LAMBDA_T(x, nudgedMin, nudgedMax, scale) {
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T val = x;
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T val = x; // boundign value between nudged min and max
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if (val < nudgedMin) {
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val = nudgedMin;
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}
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else if (val > nudgedMax)
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val = nudgedMax;
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// converse value with scale and shifted with nudged min
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return (nd4j::math::nd4j_floor<T,T>((val - nudgedMin)/scale + T(0.5)) * scale + nudgedMin);
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};
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