# Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved. # # 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. from __future__ import print_function import unittest import numpy as np from op_test import OpTest import paddle.fluid.core as core class TestFakeQuantizeOp(OpTest): def setUp(self): self.op_type = "fake_quantize_abs_max" self.attrs = {'bit_length': 8} self.inputs = {'X': np.random.random((124, 240)).astype("float32"), } scale = np.max(np.abs(self.inputs['X'])).astype("float32") self.outputs = { 'Out': np.round(self.inputs['X'] / scale * ( (1 << (self.attrs['bit_length'] - 1)) - 1)), 'OutScale': np.array(scale).astype("float32"), } def test_check_output(self): self.check_output() class TestFakeChannelWiseQuantizeOp(OpTest): def setUp(self): self.op_type = "fake_channel_wise_quantize_abs_max" self.attrs = {'bit_length': 8} self.inputs = { 'X': np.random.random((4, 3, 64, 64)).astype("float32"), } scales = [] for i in range(self.inputs['X'].shape[0]): scales.append(np.max(np.abs(self.inputs['X'][i])).astype("float32")) outputs = self.inputs['X'].copy() for i, scale in enumerate(scales): outputs[i] = np.round(outputs[i] / scale * ( (1 << (self.attrs['bit_length'] - 1)) - 1)) self.outputs = { 'Out': outputs, 'OutScale': np.array(scales).astype("float32"), } def test_check_output(self): self.check_output() class TestFakeQuantizeRangeAbsMaxOp(OpTest): def setUp(self): self.op_type = "fake_quantize_range_abs_max" self.attrs = { 'bit_length': int(5), 'window_size': int(1), 'is_test': False } x = (np.random.random((8, 16, 7, 7)) - 0.5) * 10 x = x.astype("float32") self.inputs = { 'X': x, 'Iter': np.zeros(1).astype("int64"), 'InScale': np.zeros(1).astype("float32") } scale = np.max(np.abs(self.inputs['X'])).astype("float32") out_scales = np.zeros(self.attrs['window_size']).astype("float32") out_scales[0] = scale self.outputs = { 'Out': np.round(self.inputs['X'] / scale * ( (1 << (self.attrs['bit_length'] - 1)) - 1)), 'OutScale': scale, 'OutScales': out_scales, } def test_check_output(self): self.check_output() class TestFakeQuantizeMovingOp(OpTest): def setUp(self): self.op_type = "fake_quantize_moving_average_abs_max" self.attrs = { 'bit_length': int(5), 'moving_rate': float(0.9), 'is_test': False } accum = np.zeros(1).astype("float32") accum[0] = 1 state = np.zeros(1).astype("float32") state[0] = 1 scale = np.zeros(1).astype("float32") scale[0] = 0.001 self.inputs = { 'X': np.random.random((8, 16, 7, 7)).astype("float32"), 'InScale': scale, 'InAccum': accum, 'InState': state, } out_accum = np.zeros(1).astype("float32") out_state = np.zeros(1).astype("float32") out_scale = np.zeros(1).astype("float32") out_accum[0] = self.attrs['moving_rate'] * accum[0] + np.max( np.abs(self.inputs['X'])).astype("float32") out_state[0] = self.attrs['moving_rate'] * state[0] + 1 out_scale = out_accum / out_state self.outputs = { 'Out': np.round(self.inputs['X'] / out_scale * ( (1 << (self.attrs['bit_length'] - 1)) - 1)), 'OutAccum': out_accum, 'OutState': out_state, 'OutScale': out_scale, } def test_check_output(self): self.check_output() class TestMovingAverageAbsMaxScaleOp(OpTest): def setUp(self): self.op_type = "moving_average_abs_max_scale" self.attrs = {'moving_rate': float(0.9), 'is_test': False} accum = np.zeros(1).astype("float32") accum[0] = 1 state = np.zeros(1).astype("float32") state[0] = 1 scale = np.zeros(1).astype("float32") scale[0] = 0.001 self.inputs = { 'X': np.random.random((8, 16, 7, 7)).astype("float32"), 'InAccum': accum, 'InState': state, } out_accum = np.zeros(1).astype("float32") out_state = np.zeros(1).astype("float32") out_scale = np.zeros(1).astype("float32") out_accum[0] = self.attrs['moving_rate'] * accum[0] + np.max( np.abs(self.inputs['X'])).astype("float32") out_state[0] = self.attrs['moving_rate'] * state[0] + 1 out_scale = out_accum / out_state self.outputs = { 'Out': self.inputs['X'], 'OutAccum': out_accum, 'OutState': out_state, 'OutScale': out_scale, } def test_check_output(self): self.check_output() class TestFakeQuantizeRangeAbsMaxOp2(OpTest): def setUp(self): self.op_type = "fake_quantize_range_abs_max" self.attrs = { 'bit_length': int(8), 'window_size': int(1), 'is_test': True } x = (np.random.random((8, 16, 7, 7)) - 0.5) * 10 x = x.astype("float32") scale = np.max(np.abs(x)).astype("float32") - 1.0 out_scales = np.zeros(self.attrs['window_size']).astype("float32") out_scales[0] = scale self.inputs = { 'X': x, 'Iter': np.zeros(1).astype("int64"), 'InScale': scale.astype("float32") } xs = np.clip(x, -scale, scale) qs = np.round(xs / scale * ((1 << (self.attrs['bit_length'] - 1)) - 1)) self.outputs = { 'Out': qs, 'OutScale': scale.astype("float32"), 'OutScales': out_scales, } def test_check_output(self): self.check_output(no_check_set=set(['OutScale', 'OutScales'])) if __name__ == "__main__": unittest.main()