#copyright (c) 2020 PaddlePaddle Authors. All Rights Reserve. # #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 absolute_import from __future__ import division from __future__ import print_function import math import paddle.fluid as fluid from paddle.fluid.regularizer import L2Decay from paddle.fluid.layers.learning_rate_scheduler import _decay_step_counter import paddle.fluid.layers.ops as ops from ppocr.utils.utility import initial_logger logger = initial_logger() def cosine_decay_with_warmup(learning_rate, step_each_epoch, epochs=500, warmup_minibatch=1000): """Applies cosine decay to the learning rate. lr = 0.05 * (math.cos(epoch * (math.pi / 120)) + 1) decrease lr for every mini-batch and start with warmup. """ global_step = _decay_step_counter() lr = fluid.layers.tensor.create_global_var( shape=[1], value=0.0, dtype='float32', persistable=True, name="learning_rate") warmup_minibatch = fluid.layers.fill_constant( shape=[1], dtype='float32', value=float(warmup_minibatch), force_cpu=True) with fluid.layers.control_flow.Switch() as switch: with switch.case(global_step < warmup_minibatch): decayed_lr = learning_rate * (1.0 * global_step / warmup_minibatch) fluid.layers.tensor.assign(input=decayed_lr, output=lr) with switch.default(): decayed_lr = learning_rate * \ (ops.cos((global_step - warmup_minibatch) * (math.pi / (epochs * step_each_epoch))) + 1)/2 fluid.layers.tensor.assign(input=decayed_lr, output=lr) return lr def AdamDecay(params, parameter_list=None): """ define optimizer function args: params(dict): the super parameters parameter_list (list): list of Variable names to update to minimize loss return: """ base_lr = params['base_lr'] beta1 = params['beta1'] beta2 = params['beta2'] l2_decay = params.get("l2_decay", 0.0) if 'decay' in params: supported_decay_mode = [ "cosine_decay", "cosine_decay_warmup", "piecewise_decay" ] params = params['decay'] decay_mode = params['function'] assert decay_mode in supported_decay_mode, "Supported decay mode is {}, but got {}".format( supported_decay_mode, decay_mode) if decay_mode == "cosine_decay": step_each_epoch = params['step_each_epoch'] total_epoch = params['total_epoch'] base_lr = fluid.layers.cosine_decay( learning_rate=base_lr, step_each_epoch=step_each_epoch, epochs=total_epoch) elif decay_mode == "cosine_decay_warmup": step_each_epoch = params['step_each_epoch'] total_epoch = params['total_epoch'] warmup_minibatch = params.get("warmup_minibatch", 1000) base_lr = cosine_decay_with_warmup( learning_rate=base_lr, step_each_epoch=step_each_epoch, epochs=total_epoch, warmup_minibatch=warmup_minibatch) elif decay_mode == "piecewise_decay": boundaries = params["boundaries"] decay_rate = params["decay_rate"] values = [ base_lr * decay_rate**idx for idx in range(len(boundaries) + 1) ] base_lr = fluid.layers.piecewise_decay(boundaries, values) optimizer = fluid.optimizer.Adam( learning_rate=base_lr, beta1=beta1, beta2=beta2, regularization=L2Decay(regularization_coeff=l2_decay), parameter_list=parameter_list) return optimizer def RMSProp(params, parameter_list=None): """ define optimizer function args: params(dict): the super parameters parameter_list (list): list of Variable names to update to minimize loss return: """ base_lr = params.get("base_lr", 0.001) l2_decay = params.get("l2_decay", 0.00005) if 'decay' in params: supported_decay_mode = ["cosine_decay", "piecewise_decay"] params = params['decay'] decay_mode = params['function'] assert decay_mode in supported_decay_mode, "Supported decay mode is {}, but got {}".format( supported_decay_mode, decay_mode) if decay_mode == "cosine_decay": step_each_epoch = params['step_each_epoch'] total_epoch = params['total_epoch'] base_lr = fluid.layers.cosine_decay( learning_rate=base_lr, step_each_epoch=step_each_epoch, epochs=total_epoch) elif decay_mode == "piecewise_decay": boundaries = params["boundaries"] decay_rate = params["decay_rate"] values = [ base_lr * decay_rate**idx for idx in range(len(boundaries) + 1) ] base_lr = fluid.layers.piecewise_decay(boundaries, values) optimizer = fluid.optimizer.RMSProp( learning_rate=base_lr, regularization=fluid.regularizer.L2Decay(regularization_coeff=l2_decay)) return optimizer