# 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. import unittest import numpy as np from op_test import OpTest class TestAdamaxOp1(OpTest): def setUp(self): '''Test Adamax Operator with supplied attributes ''' self.op_type = "adamax" param = np.random.uniform(-1, 1, (102, 105)).astype("float32") grad = np.random.uniform(-1, 1, (102, 105)).astype("float32") moment = np.random.uniform(-1, 1, (102, 105)).astype("float32") # The infinity norm is positive inf_norm = np.random.random((102, 105)).astype("float32") learning_rate = 0.002 beta1 = 0.78 beta2 = 0.899 epsilon = 1e-5 beta1_pow = beta1**10 self.inputs = { 'Param': param, 'Grad': grad, 'Moment': moment, 'InfNorm': inf_norm, 'LearningRate': np.array([learning_rate]).astype("float32"), 'Beta1Pow': np.array([beta1_pow]).astype("float32") } self.attrs = {'beta1': beta1, 'beta2': beta2, 'epsilon': epsilon} param_out, moment_out, inf_norm_out = adamax_step( self.inputs, self.attrs) self.outputs = { 'ParamOut': param_out, 'MomentOut': moment_out, 'InfNormOut': inf_norm_out } def test_check_output(self): self.check_output() class TestAdamaxOp2(OpTest): '''Test Adamax Operator with default attributes ''' def setUp(self): self.op_type = "adamax" param = np.random.uniform(-1, 1, (102, 105)).astype("float32") grad = np.random.uniform(-1, 1, (102, 105)).astype("float32") moment = np.random.uniform(-1, 1, (102, 105)).astype("float32") # The infinity norm is positive inf_norm = np.random.random((102, 105)).astype("float32") learning_rate = 0.002 beta1 = 0.9 beta2 = 0.999 epsilon = 1e-8 beta1_pow = beta1**8 self.inputs = { 'Param': param, 'Grad': grad, 'Moment': moment, 'InfNorm': inf_norm, 'LearningRate': np.array([learning_rate]).astype("float32"), 'Beta1Pow': np.array([beta1_pow]).astype("float32") } attrs = {'beta1': beta1, 'beta2': beta2, 'epsilon': epsilon} param_out, moment_out, inf_norm_out = adamax_step(self.inputs, attrs) self.outputs = { 'ParamOut': param_out, 'MomentOut': moment_out, 'InfNormOut': inf_norm_out } def test_check_output(self): self.check_output() class TestAdamaxOpMultipleSteps(OpTest): def setUp(self): '''Test Adamax Operator with supplied attributes ''' self.op_type = "adamax" self.num_steps = 10 param = np.random.uniform(-1, 1, (102, 105)).astype("float32") grad = np.random.uniform(-1, 1, (102, 105)).astype("float32") moment = np.random.uniform(-1, 1, (102, 105)).astype("float32") # The infinity norm is positive inf_norm = np.random.random((102, 105)).astype("float32") learning_rate = 0.002 beta1 = 0.8 beta2 = 0.99 epsilon = 1e-5 beta1_pow = 1 self.inputs = { 'Param': param, 'Grad': grad, 'Moment': moment, 'InfNorm': inf_norm, 'LearningRate': np.array([learning_rate]).astype("float32"), 'Beta1Pow': np.array([beta1_pow]).astype("float32") } self.attrs = {'beta1': beta1, 'beta2': beta2, 'epsilon': epsilon} def test_check_output(self): for _ in range(self.num_steps): param_out, moment_out, inf_norm_out = adamax_step( self.inputs, self.attrs) self.outputs = { 'ParamOut': param_out, 'MomentOut': moment_out, 'InfNormOut': inf_norm_out } # Verify output for this step self.check_output() # Output of this step becomes input for next step self.inputs['Param'] = param_out self.inputs['Moment'] = moment_out self.inputs['InfNorm'] = inf_norm_out # Update Beta1 Power accumulator for next step self.inputs['Beta1Pow'] *= self.attrs['beta1'] # Randomize gradient for next step self.inputs['Grad'] = np.random.uniform( -1, 1, (102, 105)).astype("float32") def adamax_step(inputs, attributes): ''' Simulate one step of the adamax optimizer :param inputs: dict of inputs :param attributes: dict of attributes :return tuple: tuple of output param, moment, inf_norm and beta1 power accumulator ''' param = inputs['Param'] grad = inputs['Grad'] moment = inputs['Moment'] inf_norm = inputs['InfNorm'] lr = inputs['LearningRate'] beta1_pow = inputs['Beta1Pow'] beta1 = attributes['beta1'] beta2 = attributes['beta2'] epsilon = attributes['epsilon'] moment_out = beta1 * moment + (1 - beta1) * grad inf_norm_out = np.maximum(beta2 * inf_norm + epsilon, np.abs(grad)) lr_t = (lr / (1 - beta1_pow)) param_out = param - lr_t * np.divide(moment_out, inf_norm_out) return param_out, moment_out, inf_norm_out class TestAdamaxOpV2(unittest.TestCase): def test_adamax_op_invalid_input(self): import paddle paddle.disable_static() linear = paddle.nn.Linear(10, 10) with self.assertRaises(ValueError): adam = paddle.optimizer.Adamax(0.1, beta1=-1, parameters=linear.parameters()) with self.assertRaises(ValueError): adam = paddle.optimizer.Adamax(0.1, beta2=-1, parameters=linear.parameters()) with self.assertRaises(ValueError): adam = paddle.optimizer.Adamax(0.1, epsilon=-1, parameters=linear.parameters()) if __name__ == "__main__": unittest.main()