optimizer.py 204.0 KB
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# Copyright (c) 2019 PaddlePaddle Authors. All Rights Reserved.
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#
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# 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
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#
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#     http://www.apache.org/licenses/LICENSE-2.0
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#
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# 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.
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from __future__ import print_function
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import numpy as np
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import logging
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from collections import defaultdict
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from paddle.fluid.distribute_lookup_table import find_distributed_lookup_table
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from paddle.fluid.framework import Program, Variable, name_scope, default_main_program, default_startup_program, device_guard
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from . import framework
from . import layers
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from . import unique_name
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from .backward import append_backward, _some_in_set_, _append_grad_suffix_, _get_no_grad_set_name
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from .clip import GradientClipBase, GradientClipByNorm, error_clip_callback, append_gradient_clip_ops
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from .framework import program_guard
from .initializer import Constant
from .layer_helper import LayerHelper
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from .layers import ops
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from .regularizer import append_regularization_ops
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from .dygraph import base as imperative_base
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from .dygraph import no_grad
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from .dygraph.learning_rate_scheduler import LearningRateDecay, _LearningRateEpochDecay
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from paddle.fluid import core
from paddle.fluid.layers import tensor
from functools import reduce
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from .wrapped_decorator import signature_safe_contextmanager
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from .. import compat as cpt
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__all__ = [
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    'SGD', 'Momentum', 'Adagrad', 'Adam', 'Adamax', 'Dpsgd', 'DecayedAdagrad',
    'Ftrl', 'SGDOptimizer', 'MomentumOptimizer', 'AdagradOptimizer',
    'AdamOptimizer', 'AdamaxOptimizer', 'DpsgdOptimizer',
    'DecayedAdagradOptimizer', 'RMSPropOptimizer', 'FtrlOptimizer', 'Adadelta',
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    'AdadeltaOptimizer', 'ModelAverage', 'LarsMomentum',
    'LarsMomentumOptimizer', 'DGCMomentumOptimizer', 'LambOptimizer',
    'ExponentialMovingAverage', 'PipelineOptimizer', 'LookaheadOptimizer',
    'RecomputeOptimizer'
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]
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class Optimizer(object):
    """Optimizer Base class.

    Define the common interface of an optimizer.
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    User should not use this class directly,
    but need to use one of it's implementation.
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    """

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    @imperative_base.no_grad
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    def __init__(self,
                 learning_rate,
                 parameter_list=None,
                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        self._parameter_list = list(
            parameter_list) if parameter_list is not None else None
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        self._name = name
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        if framework.in_dygraph_mode():
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            if not isinstance(learning_rate, float) and \
                    not isinstance(learning_rate, LearningRateDecay):
                raise TypeError(
                    "learning rate should be float or LearningRateDecay, got %s here"
                    % type(learning_rate))
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            if self._parameter_list is None:
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                raise AttributeError(
                    "parameter_list argument given to the Optimizer should not be None in dygraph mode."
                )
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            if regularization is not None:
                for param in self._parameter_list:
                    if param.regularizer is not None:
                        logging.info(
                            "If regularizer of a Parameter has been set by 'fluid.ParamAttr' or 'fluid.WeightNormParamAttr' already. "
                            "The Regularization[%s] in Optimizer will not take effect, and it will only be applied to other Parameters!"
                            % regularization.__str__())
                        break
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        else:
            if not isinstance(learning_rate, float) and \
                    not isinstance(learning_rate, framework.Variable):
                raise TypeError(
                    "learning rate should be float or Variable, got %s here" %
                    type(learning_rate))

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        if grad_clip is not None:
            if not isinstance(grad_clip, GradientClipBase):
                raise TypeError(
                    "'grad_clip' should be an instance of GradientClipBase's derived class"
                )
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        self.regularization = regularization
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        self._grad_clip = grad_clip
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        self._learning_rate = learning_rate
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        # the learning rate type should be inferenced from loss
        self._dtype = None
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        # each program should have a independent learning rate
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        # program -> Variable(learning_rate)
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        self._learning_rate_map = dict()
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        if isinstance(self._learning_rate, framework.Variable):
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            self._learning_rate_map[framework.default_main_program(
            )] = self._learning_rate
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        # Dictionary of accumulators. Some optimizer subclasses need to
        # allocate and manage extra variables associated with the parameters
        # to train. These variables are called accumulators.
        # {accum_name : { paramter_name : accumulator_for_parameter, ...}, ...}
        self._accumulators = defaultdict(lambda: dict())
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        self.helper = None
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        self._opti_name_list = []
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        self._accumulators_holder = {}
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        self._param_device_map = dict()
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    @framework.dygraph_only
    def state_dict(self):
        '''
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        Get state dict information from optimizer. It contain all the variable used by optimizer. For Adam optimizer, contains beta1, beta2, momentum etc. If LearningRateDecay have been used, global_step will be include in state dict.
        If the optimizer never be called(minimize function), the state_dict is empty.
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        Args: None
        Return:
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            state_dict(dict) : dict contains all the variable used by optimizer
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        Examples:
            .. code-block:: python

                import paddle.fluid as fluid
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                with fluid.dygraph.guard():
                    emb = fluid.dygraph.Embedding([10, 10])

                    adam = fluid.optimizer.Adam(0.001, parameter_list=emb.parameters())
                    state_dict = adam.state_dict()
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        '''
        state_dict = {}
        for k, v in self._accumulators.items():
            for para_name, var_tmp in v.items():
                state_dict[var_tmp.name] = var_tmp
        # global step if use lr decay
        if isinstance(self._learning_rate, LearningRateDecay):
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            state_dict["LR_Scheduler"] = self._learning_rate.state_dict()

            if not isinstance(self._learning_rate, _LearningRateEpochDecay):
                var_tmp = None
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                var_temp = framework._varbase_creator(
                    None, name='global_step', dtype='int32')

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                tensor.fill_constant(
                    [1], "int32", self._learning_rate.step_num, out=var_temp)
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                state_dict['global_step'] = var_temp
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        return state_dict

    @framework.dygraph_only
    def set_dict(self, state_dict):
        '''
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        Load optimizer state dict. For Adam optimizer, contains beta1, beta2, momentum etc. If LearningRateDecay have been used, global_step will be changed.
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        Args: 
            state_dict(dict) : Dict contains all the Variable needed by optimizer
        Return:
            None
        
        Examples:
            .. code-block:: python
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                with fluid.dygraph.guard():
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                    emb = fluid.dygraph.Embedding([10, 10])
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                    state_dict = emb.state_dict()
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                    fluid.save_dygraph(state_dict, "paddle_dy")
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                    adam = fluid.optimizer.Adam(learning_rate=fluid.layers.noam_decay( 100, 10000), 
                                                parameter_list=emb.parameters())
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                    state_dict = adam.state_dict()
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                    fluid.save_dygraph(state_dict, "paddle_dy")
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                    para_state_dict, opti_state_dict = fluid.load_dygraph( "paddle_dy")
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                    adam.set_dict(opti_state_dict)
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        '''

        if isinstance(self._learning_rate, LearningRateDecay):
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            self._learning_rate.set_dict(state_dict["LR_Scheduler"])

            if not isinstance(self._learning_rate, _LearningRateEpochDecay):
                assert 'global_step' in state_dict, \
                        'Global step not in state dict, Dygraph use LearningRateDecay, global_step must in state_dict'
                global_step = state_dict['global_step']

                if isinstance(global_step, Variable):
                    step_np = global_step
                    step_np = np.array(step_np.value().get_tensor())
                    assert step_np.shape == (1,),  \
                            "global step shape is (1,), the shape is {}".format( step_np.shape )

                    self._learning_rate.step_num = int(step_np[0])
                elif isinstance(global_step, np.ndarray):
                    assert global_step.shape == (1,),  \
                            "global step shape is (1,), the shape is {}".format( global_step.shape )
                    self._learning_rate.step_num = global_step[0]
                else:
                    raise RuntimeError(
                        "Type not supprt, value in state dict must be [VarBase, Variable, numpy], the type is ",
                        type(global_step))
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        self._accumulators_holder = state_dict
        for k, v in self._accumulators.items():
            for para_name, var_tmp in v.items():
                assert var_tmp.name in state_dict, \
                        "optimizer variable {} not found".format( var_tmp.name )
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                var = var_tmp.value()
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                tensor = var.get_tensor()
                model_np = np.array(tensor)

                load_para = state_dict[var_tmp.name]

                if isinstance(load_para, Variable):
                    load_para_np = load_para.numpy()
                elif isinstance(load_para, core.VarBase):
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                    load_para_np = load_para.numpy()
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                elif isinstance(load_para, np.ndarray):
                    load_para_np = load_para
                else:
                    raise RuntimeError("State dict type {} not supprt".format(
                        str(type(load_para))))

                assert model_np.shape == load_para_np.shape,  \
                                          "Parameter shape not match, Dygraph Parameter [ {} ] need tensor with shape {} but load tensor with shape {}".format(
                                                 item.name, model_np.shape, load_para_np.shape)

                assert model_np.dtype == load_para_np.dtype, \
                                          "Parameter dtype not match, Dygraph Parameter [ {} ] need tensor with dtype {}  but load tensor with dtype {}".format(
                                                item.name, model_np.dtype, load_para_np.dtype)

                tensor.set(load_para_np, framework._current_expected_place())
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    def get_opti_var_name_list(self):
        return self._opti_name_list
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    def _create_global_learning_rate(self):
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        if imperative_base.enabled():
            # create learning rate Variable
            if isinstance(self._learning_rate, float):
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                lr = self._global_learning_rate()

                if isinstance(lr, framework.Variable):
                    return
                else:
                    self._learning_rate_map[framework.default_main_program(
                    )] = layers.create_global_var(
                        name=unique_name.generate("learning_rate"),
                        shape=[1],
                        value=float(self._learning_rate),
                        dtype='float32' if self._dtype is None else self._dtype,
                        persistable=True)
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            # get learning rate Variable from LearningRateDecay
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            elif isinstance(self._learning_rate, LearningRateDecay):
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                self._learning_rate_map[framework.default_main_program(
                )] = self._learning_rate()
            else:
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                raise TypeError(
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                    "optimizer's learning rate must be float or LearningRateDecay"
                )
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        else:
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            lr = self._global_learning_rate()

            if isinstance(lr, framework.Variable):
                return
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            else:
                if not isinstance(self._learning_rate, float):
                    raise TypeError(
                        "learning rate variable is create outside optimizer,"
                        "can not create new learning rate variable for new program"
                    )
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            # create learning rate in the current main program
            self._learning_rate_map[framework.default_main_program(
            )] = layers.create_global_var(
                name=unique_name.generate("learning_rate"),
                shape=[1],
                value=float(self._learning_rate),
                dtype='float32' if self._dtype is None else self._dtype,
                persistable=True)
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    @framework.dygraph_only
    def set_lr(self, value):
        """
        :api_attr: imperative
        
        Set the value of the learning rate manually in the optimizer. If the optimizer use LearningRateDecay,
        this API cannot be invoked, because it will lead to conflict.

        Args:
            value (float|Variable): the value of learning rate

        Returns:
            None
          
        Examples:
            .. code-block:: python

                import paddle.fluid as fluid
                        
                with fluid.dygraph.guard():
                    linear = fluid.dygraph.nn.Linear(10, 10)

                    adam = fluid.optimizer.Adam(0.1, parameter_list=linear.parameters())

                    # set learning rate manually by python float value
                    lr_list = [0.2, 0.3, 0.4, 0.5, 0.6]
                    for i in range(5):
                        adam.set_lr(lr_list[i])
                        lr = adam.current_step_lr()
                        print("current lr is {}".format(lr))
                    # Print:
                    #    current lr is 0.2
                    #    current lr is 0.3
                    #    current lr is 0.4
                    #    current lr is 0.5
                    #    current lr is 0.6


                    # set learning rate manually by framework Variable
                    lr_var = fluid.layers.create_global_var(
                        shape=[1], value=0.7, dtype='float32')
                    adam.set_lr(lr_var)
                    lr = adam.current_step_lr()
                    print("current lr is {}".format(lr))
                    # Print:
                    #    current lr is 0.7



        """
        if not isinstance(value, (framework.Variable, float)):
            raise TypeError(
                "The type of 'value' in optimizer.set_lr must be (float, Variable), but received %s."
                % (type(value)))
        if isinstance(self._learning_rate, LearningRateDecay):
            raise RuntimeError(
                "optimizer's learning rate can't be LearningRateDecay when invoke this API, because this will lead to conflict."
            )
        if isinstance(value, float):
            self._learning_rate = value
            current_lr = self._global_learning_rate()
            if current_lr is not None:
                global_block = framework.default_main_program().global_block()
                global_block.append_op(
                    type='fill_constant',
                    outputs={'Out': [current_lr]},
                    attrs={
                        'dtype': current_lr.dtype,
                        'shape': list(current_lr.shape),
                        'value': float(value)
                    },
                    stop_gradient=True)
        else:
            assert len(value.shape) == 1 and value.shape[
                0] == 1, "optimizer's learning rate must be 1-D Tensor with shape[1]"
            self._learning_rate_map[framework.default_main_program()] = value

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    @framework.dygraph_only
    def current_step_lr(self):
        """
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        :api_attr: imperative
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        Get current step learning rate. The return value is all the same When LearningRateDecay is not used,
        otherwise return the step learning rate.

        Returns:
            float: The learning rate of the current step.

        Examples:
            .. code-block:: python

                import paddle.fluid as fluid
                import numpy as np

                # example1: LearningRateDecay is not used, return value is all the same
                with fluid.dygraph.guard():
                    emb = fluid.dygraph.Embedding([10, 10])
                    adam = fluid.optimizer.Adam(0.001, parameter_list = emb.parameters())
                    lr = adam.current_step_lr()
                    print(lr) # 0.001

                # example2: PiecewiseDecay is used, return the step learning rate
                with fluid.dygraph.guard():
                    inp = np.random.uniform(-0.1, 0.1, [10, 10]).astype("float32")
                    linear = fluid.dygraph.nn.Linear(10, 10)
                    inp = fluid.dygraph.to_variable(inp)
                    out = linear(inp)
                    loss = fluid.layers.reduce_mean(out)
                    
                    bd = [2, 4, 6, 8]
                    value = [0.2, 0.4, 0.6, 0.8, 1.0]
                    adam = fluid.optimizer.Adam(fluid.dygraph.PiecewiseDecay(bd, value, 0),
                                           parameter_list=linear.parameters())

                    # first step: learning rate is 0.2
                    np.allclose(adam.current_step_lr(), 0.2, rtol=1e-06, atol=0.0) # True

                    # learning rate for different steps
                    ret = [0.2, 0.2, 0.4, 0.4, 0.6, 0.6, 0.8, 0.8, 1.0, 1.0, 1.0, 1.0]
                    for i in range(12):
                        adam.minimize(loss)
                        lr = adam.current_step_lr()
                        np.allclose(lr, ret[i], rtol=1e-06, atol=0.0) # True

        """
        current_lr = self._global_learning_rate()
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        if isinstance(current_lr, framework.Variable):
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            return self._global_learning_rate().numpy()[0]

        if isinstance(self._learning_rate, float):
            return self._learning_rate
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        elif isinstance(self._learning_rate, _LearningRateEpochDecay):
            step_lr = self._learning_rate()
            return step_lr.numpy()[0]
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        else:
            step_lr = self._learning_rate.step()
            if isinstance(step_lr, (float, int)):
                return step_lr
            else:
                return step_lr.numpy()[0]

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    def _global_learning_rate(self, program=None):
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        """
        get global decayed learning rate
        :return:
        """
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        if program is None:
            program = framework.default_main_program()
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        return self._learning_rate_map.get(program, None)
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    def _append_optimize_op(self, block, param_and_grad):
        """ append optimize operator to block and return all the added optimize_op
        """
        raise NotImplementedError()

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    def _create_param_lr(self, param_and_grad):
        # create learning rate variable for every parameter
        param = param_and_grad[0]
        param_lr = param.optimize_attr['learning_rate']
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        if type(param_lr) == Variable:
            return param_lr
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        else:
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            if param_lr == 1.0:
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                return self._global_learning_rate()
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            else:
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                with default_main_program()._lr_schedule_guard(
                        is_with_opt=True), framework.name_scope(
                            'scale_with_param_lr'):
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                    return self._global_learning_rate() * param_lr
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    def _create_accumulators(self, block, parameters):
        """Create all accumulators needed by the parameters

        Args:
            block: the block in which the loss variable is present
            parameters: list of parameter variables for the optimizer
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        """
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        pass

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    def _finish_update(self, block, parameters_and_grads):
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        """Finish any custom updates needed
           before completing an optimization step

        Args:
            block: the block in which the loss variable is present
            parameters: list of parameter variables for the optimizer

        Returns:
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            None
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        """
        pass

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    def _add_accumulator(self,
                         name,
                         param,
                         dtype=None,
                         fill_value=0.0,
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                         shape=None,
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                         type=None,
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                         device=None):
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        """Utility function to add an accumulator for a parameter

        Args:
            block: the block in which the loss variable is present
            name: name of the accumulator
            param: parameter variable for which accumulator is to be added
            dtype: data type of the accumulator variable
            fill_value: value to initialize the accumulator variable
        """
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        if self._name is not None:
            name = self._name + "_" + name
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        if (name in self._accumulators and
                param.name in self._accumulators[name]):
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            if framework.in_dygraph_mode():
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                return self._accumulators[name][param.name]
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            raise Exception("Accumulator {} already exists for parameter {}".
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                            format(name, param.name))
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        if shape == None:
            shape = param.shape
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        assert isinstance(self.helper, LayerHelper)
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        var_name = param.name + "_" + name
        var_name = unique_name.generate(var_name)
        self._opti_name_list.append(var_name)

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        var = self.helper.create_global_variable(
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            name=var_name,
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            persistable=True,
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            dtype=dtype or param.dtype,
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            type=param.type if type is None else type,
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            shape=shape,
            belong_to_optimizer=True)
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        if device is None:
            device = self._get_device_for_param(param.name)
        with device_guard(device):
            self.helper.set_variable_initializer(
                var, initializer=Constant(value=float(fill_value)))
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        if framework.in_dygraph_mode():
            if len(self._accumulators_holder) > 0:
                assert var_name in self._accumulators_holder, \
                        "Optimizer set error, {} should in state dict".format( var_name )
                var.set_value(self._accumulators_holder[var_name])

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        self._accumulators[name][param.name] = var
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        return var
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    def _get_accumulator(self, name, param):
        """Utility function to fetch an accumulator for a parameter

        Args:
            name: name of the accumulator
            param: parameter variable for which accumulator is to be fetched

        Returns:
            accumulator variable for the parameter
        """
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        if self._name is not None:
            name = self._name + "_" + name
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        if (name not in self._accumulators or
                param.name not in self._accumulators[name]):
            raise Exception("Accumulator {} does not exist for parameter {}".
                            format(name, param.name))
        return self._accumulators[name][param.name]

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    def _update_param_device_map(self, parameters_and_grads, target_block):
        for param_and_grad in parameters_and_grads:
            if param_and_grad[0].trainable is True:
                param_name = param_and_grad[0].name
                ops = target_block.ops
                device_attr_name = core.op_proto_and_checker_maker.kOpDeviceAttrName(
                )
                for op in ops:
                    input_arg_names = op.input_arg_names
                    if param_name in input_arg_names:
                        self._param_device_map[param_name] = op.attr(
                            device_attr_name)
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                        break
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    def _get_device_for_param(self, param_name):
        device = None
        if param_name in self._param_device_map:
            device = self._param_device_map[param_name]
        return device

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    def _create_optimization_pass(self, parameters_and_grads):
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        """Add optimization operators to update gradients to variables.

        Args:
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          parameters_and_grads(list(tuple(Variable, Variable))):
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            a list of (variable, gradient) pair to update.
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        Returns:
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          return_op_list: a list of operators that will complete one step of
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            optimization. This will include parameter update ops, global step
            update ops and any other custom ops required by subclasses to manage
            their internal state.
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        """
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        # This is a default implementation of create_optimization_pass that
        # can be shared by most optimizers. This implementation assumes that
        # the subclass will implement the _append_optimize_op method and the
        #  _initialize_tensors method. The subclass can extend the
        # _create_accumulators method if it needs to create accumulators
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        # for parameters and extend _finish_update method to add custom ops.
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        # Allways called under program_guard use global block as loss block
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        # But if current block is in control flow, append optimize op in the
        # grad block of current block

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        global_block = framework.default_main_program().global_block()
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        target_block = global_block
        current_block = framework.default_main_program().current_block()
        if current_block.idx != global_block.idx:
            assert current_block.backward_block_idx != -1, \
                "current block is not global_block, but it doesn't have backward block."
            target_block = framework.default_main_program().blocks[
                current_block.backward_block_idx]

        start = len(target_block.ops)
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        self.helper = LayerHelper(self.__class__.__name__)
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        self._update_param_device_map(parameters_and_grads, target_block)
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        self._create_accumulators(
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            target_block,
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            [p[0] for p in parameters_and_grads if p[0].trainable])
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        self._create_global_learning_rate()

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        if framework.in_dygraph_mode():
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            for param_and_grad in parameters_and_grads:
                if param_and_grad[1] is None:
                    continue
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                if param_and_grad[0].trainable is True:
                    self._append_optimize_op(target_block, param_and_grad)
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        else:
            for param_and_grad in parameters_and_grads:
                if param_and_grad[1] is None:
                    continue
                with param_and_grad[0].block.program._optimized_guard(
                        param_and_grad), name_scope("optimizer"):
                    if param_and_grad[0].trainable is True:
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                        device = self._get_device_for_param(param_and_grad[0]
                                                            .name)
                        with device_guard(device):
                            optimize_op = self._append_optimize_op(
                                target_block, param_and_grad)
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        # Get custom finish ops for subclasses
        # FIXME: Need to fix this once we figure out how to handle dependencies
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        self._finish_update(target_block, parameters_and_grads)
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        end = len(target_block.ops)
        return target_block._slice_ops(start, end)
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    def _process_distribute_lookuptable(self, param_grads):
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        """
        Because distribute lookup table only support SGD optimizer for now, not support
        other optimizer and regularization, so we should find the table parameter out,
        and avoid to add regularization and other op for it, and add sgd optimize op
        for it independently.
        :param param_grads(list((Var, Var))): list of (param, grad) pair.
        :param loss: the loss variable.
        :param startup_program: the startup program
        """
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        program = framework.default_main_program()
        global_block = framework.default_main_program().global_block()
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        table_name = find_distributed_lookup_table(program)
        table_param = None
        table_grad = None
        new_param_grads = []
        for p, g in param_grads:
            if p.name == table_name:
                if table_param is not None:
                    raise RuntimeError(
                        "multi dist table var found, only support one now!")
                table_param = p
                table_grad = g
            else:
                new_param_grads.append((p, g))
        sgd_op = None
        if table_param is not None:
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            param_and_grad = [table_param, table_grad]
            with table_param.block.program._optimized_guard(param_and_grad), \
                    framework.name_scope("optimizer"):
                self._create_global_learning_rate()
                # create the optimize op
                sgd_op = global_block.append_op(
                    type='sgd',
                    inputs={
                        "Param": table_param,
                        "Grad": table_grad,
                        "LearningRate": self._create_param_lr(param_and_grad)
                    },
                    outputs={"ParamOut": param_and_grad[0]})
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        return new_param_grads, (table_param, table_grad), sgd_op

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    def _append_dgc_ops(self, param_and_grad):
        pass

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    def backward(self,
                 loss,
                 startup_program=None,
                 parameter_list=None,
                 no_grad_set=None,
                 callbacks=None):
        """
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        The first part of ``minimize``, do auto-diff to append backward operations for
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        the current program.

        Args:
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            loss (Variable): ``loss`` variable to run optimizations.
            startup_program (Program, optional): :ref:`api_fluid_Program` for
                initializing parameters in ``parameter_list``. The default value
                is None, at this time :ref:`api_fluid_default_startup_program` will be used.
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            parameter_list (Iterable, optional): Iterable of ``Variable`` or ``Variable.name`` to update
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                to minimize ``loss``. The default value is None, at this time all parameters
                will be updated.
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            no_grad_set (set, optional): Set of ``Variable``  or ``Variable.name`` that don't need
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                to be updated. The default value is None.
            callbacks (list, optional): list of callable objects to run when appending backward
                operator for one parameter. The default value is None.
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        Return:
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            list: list of (param, grad) variable pairs, param is ``Parameter``,
                grad is the gradient value corresponding to the parameter.
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        Examples:
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            See examples in ``apply_gradients``.
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        """
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        act_no_grad_set = None
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        if framework.in_dygraph_mode():
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            pass
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        else:
            act_no_grad_set = self._get_no_grad_set(loss, no_grad_set)
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        self._dtype = loss.dtype
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        if framework.in_dygraph_mode():
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            params_grads = []
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            for param in self._parameter_list:
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                if not param.trainable:
                    continue
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                if param._grad_ivar() is not None:
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                    # create gradient variable
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                    grad_var = param._grad_ivar()
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                    params_grads.append((param, grad_var))
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        else:
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            if callbacks is None:
                callbacks = [error_clip_callback]
            else:
                assert (isinstance(callbacks, list))
            program = loss.block.program
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            assert len(loss.shape) == 1 and loss.shape[0] == 1, \
                "The loss.shape should be (1L,), but the current loss.shape is {}. " \
                "Maybe that you should call fluid.layers.mean to process the current loss.".format(
                    loss.shape)
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            parameter_list = parameter_list if parameter_list \
                else self._parameter_list
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            with program_guard(program, startup_program):
                params_grads = append_backward(loss, parameter_list,
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                                               act_no_grad_set, callbacks)
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                # Note: since we can't use all_reduce_op now,
                #  dgc_op should be the last op of one grad.
                self._append_dgc_ops(params_grads)
        return params_grads
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    def apply_gradients(self, params_grads):
        """
        Second part of `minimize`, appending optimization operators for
        given `params_grads` pairs.

        Args:
            params_grads (list): list of (param, grad) pair to do optimization.
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        Returns:
            list: A list of operators appended to the current program.
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        Examples:
            .. code-block:: python

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                import paddle.fluid as fluid
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                loss = network()
                optimizer = fluid.optimizer.SGD(learning_rate=0.1)
                params_grads = optimizer.backward(loss)
                # you may append operations for params_grads here
                # ...
                optimizer.apply_gradients(params_grads)
        """
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        params_grads = sorted(params_grads, key=lambda x: x[0].name)

        params_grads, table_param_and_grad, table_optimize_op = \
            self._process_distribute_lookuptable(params_grads)

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        # 'optimizer(grad_clip)' or 'set_gradient_clip'
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        if self._grad_clip is not None:
            params_grads = self._grad_clip(params_grads)
        else:
            params_grads = append_gradient_clip_ops(params_grads)
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        # Add regularization if any
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        params_grads = append_regularization_ops(
            params_grads, self.regularization, self._param_device_map)
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        optimize_ops = self._create_optimization_pass(params_grads)
        if table_optimize_op is not None:
            optimize_ops.append(table_optimize_op)
            params_grads.append(table_param_and_grad)

        return optimize_ops

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    def apply_optimize(self, loss, startup_program, params_grads):
        """
        Second part of `minimize`, appending optimization operators for
        given `params_grads` pairs.
        Args:
            loss (Variable): loss variable to run optimizations.
            startup_program (Program): startup_program for initializing parameters
                in `parameter_list`.
            params_grads (list): list of (param, grad) pair to do optimization.
        Returns:
            list: A list of operators appended to the current program.
        """
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        if framework.in_dygraph_mode():
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            with program_guard(framework.default_main_program(),
                               framework.default_startup_program()):
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                if self._grad_clip is not None:
                    params_grads = self._grad_clip(params_grads)
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                params_grads = append_regularization_ops(params_grads,
                                                         self.regularization)
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                optimize_ops = self._create_optimization_pass(params_grads)
        else:
            program = loss.block.program
            with program_guard(program, startup_program):
                optimize_ops = self.apply_gradients(params_grads)
        return optimize_ops

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    def _get_no_grad_set(self, loss, no_grad_set=None):
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        no_grad_set = _get_no_grad_set_name(no_grad_set)
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        parameters = loss.block.program.global_block().all_parameters()
        param_no_trainable = set(
            [param.name for param in parameters if param.trainable is False])
        # If the parameter is no trainable, it should not have a gradient.
        no_grad_set.update(param_no_trainable)

        return no_grad_set

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    @framework.dygraph_only
    def clear_gradients(self):
        """
        Clear the gradients of all optimized parameters for model.
        
        Returns:
            None
        
        Examples:
            .. code-block:: python

                import paddle.fluid as fluid
                import numpy as np

                with fluid.dygraph.guard():
                    value = np.arange(26).reshape(2, 13).astype("float32")
                    a = fluid.dygraph.to_variable(value)
                    linear = fluid.Linear(13, 5, dtype="float32")
                    # This can be any optimizer supported by dygraph.
                    adam = fluid.optimizer.Adam(learning_rate = 0.01, 
                                                parameter_list = linear.parameters())
                    out = linear(a)
                    out.backward()
                    adam.minimize(out)
                    adam.clear_gradients()

        """
        for p in self._parameter_list:
            if p.trainable:
                p.clear_gradient()

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    @imperative_base.no_grad
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    def minimize(self,
                 loss,
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                 startup_program=None,
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                 parameter_list=None,
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                 no_grad_set=None):
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        """
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        Add operations to minimize ``loss`` by updating ``parameter_list``.
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        Args:
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            loss (Variable): A ``Variable`` containing the value to minimize.
            startup_program (Program, optional): :ref:`api_fluid_Program` for
                initializing parameters in ``parameter_list``. The default value
                is None, at this time :ref:`api_fluid_default_startup_program` will be used.
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            parameter_list (Iterable, optional): Iterable of ``Variable`` or ``Variable.name`` to update
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                to minimize ``loss``. The default value is None, at this time all parameters
                will be updated.
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            no_grad_set (set, optional): Set of ``Variable``  or ``Variable.name`` that don't need
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                to be updated. The default value is None.
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        Returns:
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            tuple: tuple (optimize_ops, params_grads), A list of operators appended
            by minimize and a list of (param, grad) variable pairs, param is
            ``Parameter``, grad is the gradient value corresponding to the parameter.
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            The returned tuple can be passed to ``fetch_list`` in ``Executor.run()`` to 
            indicate program pruning. If so, the program will be pruned by ``feed`` and 
            ``fetch_list`` before run, see details in ``Executor``.
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        Examples:
            Please refer to the example of current Optimizer.
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        """
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        assert isinstance(loss, Variable), "The loss should be an Variable."
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        parameter_list = parameter_list if parameter_list \
            else self._parameter_list
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        params_grads = self.backward(
            loss,
            startup_program=startup_program,
            parameter_list=parameter_list,
            no_grad_set=no_grad_set)
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        optimize_ops = self.apply_optimize(
            loss, startup_program=startup_program, params_grads=params_grads)
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        return optimize_ops, params_grads
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class SGDOptimizer(Optimizer):
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    """
    Optimizer of the stochastic gradient descent algorithm.

    .. math::

        param\_out = param - learning\_rate * grad

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    Parameters:
        learning_rate (float|Variable): The learning rate used to update parameters. \
            Can be a float value or a Variable with one float value as data element.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): This parameter is used by developers to print debugging information. \
            For details, please refer to :ref:`api_guide_Name`. Default is None.
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    Examples:
        .. code-block:: python

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            import paddle
            import paddle.fluid as fluid
            import numpy as np

            place = fluid.CPUPlace()
            main = fluid.Program()
            with fluid.program_guard(main):
                x = fluid.layers.data(name='x', shape=[13], dtype='float32')
                y = fluid.layers.data(name='y', shape=[1], dtype='float32')
                y_predict = fluid.layers.fc(input=x, size=1, act=None)
                cost = fluid.layers.square_error_cost(input=y_predict, label=y)
                avg_cost = fluid.layers.mean(cost)

                sgd_optimizer = fluid.optimizer.SGD(learning_rate=0.001)
                sgd_optimizer.minimize(avg_cost)

                fetch_list = [avg_cost]
                train_reader = paddle.batch(
                    paddle.dataset.uci_housing.train(), batch_size=1)
                feeder = fluid.DataFeeder(place=place, feed_list=[x, y])
                exe = fluid.Executor(place)
                exe.run(fluid.default_startup_program())
                for data in train_reader():
                    exe.run(main, feed=feeder.feed(data), fetch_list=fetch_list)

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    """

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    def __init__(self,
                 learning_rate,
                 parameter_list=None,
                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        assert learning_rate is not None
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        super(SGDOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        self.type = "sgd"

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    @no_grad
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    def _append_optimize_op(self, block, param_and_grad):
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        lr = self._create_param_lr(param_and_grad)
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        if framework.in_dygraph_mode():
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            core.ops.sgd(param_and_grad[0], lr, param_and_grad[1],
                         param_and_grad[0])
            return None
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        assert isinstance(block, framework.Block)
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        # create the optimize op
        sgd_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
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                "LearningRate": lr
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            },
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            outputs={"ParamOut": param_and_grad[0]},
            stop_gradient=True)
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        return sgd_op
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class MomentumOptimizer(Optimizer):
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    """

    Simple Momentum optimizer with velocity state

    This optimizer has a flag for Nestrov Momentum.

    The update equations are as follows:

    .. math::

        & velocity = mu * velocity + gradient

        & if (use\_nesterov):

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        &\quad   param = param - (gradient + mu * velocity) * learning\_rate
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        & else:

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        &\quad   param = param - learning\_rate * velocity
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    Parameters:
        learning_rate (float|Variable): The learning rate used to update parameters. \
            Can be a float value or a Variable with one float value as data element.
        momentum (float): Momentum factor
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        use_nesterov (bool, optional): Enables Nesterov momentum, default is false.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): This parameter is used by developers to print debugging information. \
            For details, please refer to :ref:`api_guide_Name`. Default is None.
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    Examples:
        .. code-block:: python

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            import paddle
            import paddle.fluid as fluid
            import numpy as np

            place = fluid.CPUPlace()
            main = fluid.Program()
            with fluid.program_guard(main):
                x = fluid.layers.data(name='x', shape=[13], dtype='float32')
                y = fluid.layers.data(name='y', shape=[1], dtype='float32')
                y_predict = fluid.layers.fc(input=x, size=1, act=None)
                cost = fluid.layers.square_error_cost(input=y_predict, label=y)
                avg_cost = fluid.layers.mean(cost)

                moment_optimizer = fluid.optimizer.MomentumOptimizer(learning_rate=0.001, momentum=0.9)
                moment_optimizer.minimize(avg_cost)

                fetch_list = [avg_cost]
                train_reader = paddle.batch(
                    paddle.dataset.uci_housing.train(), batch_size=1)
                feeder = fluid.DataFeeder(place=place, feed_list=[x, y])
                exe = fluid.Executor(place)
                exe.run(fluid.default_startup_program())
                for data in train_reader():
                    exe.run(main, feed=feeder.feed(data), fetch_list=fetch_list)

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    """
    _velocity_acc_str = "velocity"

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    def __init__(self,
                 learning_rate,
                 momentum,
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                 parameter_list=None,
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                 use_nesterov=False,
                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        assert learning_rate is not None
        assert momentum is not None
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        super(MomentumOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        self.type = "momentum"
        self._momentum = momentum
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        self._use_nesterov = bool(use_nesterov)
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    def _create_accumulators(self, block, parameters):
        assert isinstance(block, framework.Block)

        for p in parameters:
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            self._add_accumulator(self._velocity_acc_str, p)
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    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)

        velocity_acc = self._get_accumulator(self._velocity_acc_str,
                                             param_and_grad[0])
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        lr = self._create_param_lr(param_and_grad)

        if framework.in_dygraph_mode():
            _, _ = core.ops.momentum(param_and_grad[0], param_and_grad[1],
                                     velocity_acc, lr, param_and_grad[0],
                                     velocity_acc, 'mu', self._momentum,
                                     'use_nesterov', self._use_nesterov)
            return None
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        attrs = {"mu": self._momentum, "use_nesterov": self._use_nesterov}
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        inputs = {
            "Param": [param_and_grad[0]],
            "Grad": [param_and_grad[1]],
            "Velocity": [velocity_acc],
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            "LearningRate": [lr]
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        }

        outputs = {
            "ParamOut": [param_and_grad[0]],
            "VelocityOut": [velocity_acc]
        }
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        # create the momentum optimize op
        momentum_op = block.append_op(
            type=self.type,
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            inputs=inputs,
            outputs=outputs,
            attrs=attrs,
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            stop_gradient=True)
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        return momentum_op
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class DGCMomentumOptimizer(Optimizer):
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    """
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	:api_attr: Static Graph
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    DGC (Deep Gradient Compression) Momentum Optimizer. Original paper is https://arxiv.org/abs/1712.01887
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    DGC reduces the communication bandwidth by sending only the important gradients (sparse update):\
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        only gradients larger than a threshold are transmitted.

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    To avoid losing information, DGC accumulates the rest of the gradients locally.
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    Eventually, these gradients become large enough to be transmitted.

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    Thus, DGC sends the large gradients immediately but eventually sends all of the gradients over time.
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    To ensure no loss of accuracy, DGC employs momentum correction and local gradient clipping on top of the gradient sparsification to maintain model performance.
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    DGC also uses momentum factor masking and warmup training to overcome the staleness problem caused by reduced communication.

    This optimizer will do two things:
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        1. Compress the gradient by get TopK import value from tensor \
            and use it for allreduce to reduce network bandwidth.
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        2. Call momentum to optimize the cost.
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    Args:
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        learning_rate (float|Variable): The learning rate used to update parameters. \
            It can be a float value or a Variable with one float value as a data element.
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        momentum (float): Momentum factor.
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        rampup_begin_step (int): The beginning step from which gradient compression is implemented.
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        rampup_step (int): Time steps used in sparsity warm-up periods. Default is 1.
            For example, if the sparsity is [0.75, 0.9375, 0.984375, 0.996, 0.999], and the rampup_step is 100, \
                it will use 0.75 at 0~19 steps, and 0.9375 at 20~39 steps, and so on. \
                And when reach sparsity array ends, it will use 0.999 then and after.
        sparsity (list[float]): Get top important element from gradient tensor, the ratio is (1 - current sparsity). \
            Default is [0.999]. For example, if the sparsity is [0.99, 0.999], \
                the top [1%, 0.1%] important element will be transmitted.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        use_nesterov (bool): Enables Nesterov momentum. True means use Nesterov. Default is False.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipByNorm, optional): Gradient cliping strategy. ``DGCMomentumOptimizer`` only support 
            :ref:`api_fluid_clip_GradientClipByNorm` , and if not, it will raise TypeError. Default None, 
            meaning there is no gradient clipping.
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        name (str, optional): This parameter is used by developers to print debugging information. \
            For details, please refer to :ref:`api_guide_Name`. Default is None.
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            optimizer = fluid.optimizer.DGCMomentumOptimizer(
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                        learning_rate=0.0001,
                        momentum=0.9,
                        rampup_step=1000,
                        rampup_begin_step=1252,
                        sparsity=[0.999, 0.999])
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    """
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    _u_velocity_acc_str = "_dgc_u_"
    _v_velocity_acc_str = "_dgc_v_"
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    def __init__(self,
                 learning_rate,
                 momentum,
                 rampup_begin_step,
                 rampup_step=1,
                 sparsity=[0.999],
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                 parameter_list=None,
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                 use_nesterov=False,
                 num_trainers=None,
                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        if framework.in_dygraph_mode():
            raise Exception("In dygraph, don't support DGCMomentumOptimizer.")
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        assert core.is_compiled_with_cuda(), \
            "Paddle is not compiled with CUDA. DGC is only support GPU for now."

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        assert learning_rate is not None
        assert momentum is not None
        super(DGCMomentumOptimizer, self).__init__(
            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
        self.type = "dgc_momentum"
        self._momentum = momentum
        self._use_nesterov = bool(use_nesterov)
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        assert rampup_begin_step >= 0, "rampup_begin_step must >= 0"
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        self._rampup_begin_step = rampup_begin_step
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        self._rampup_step = rampup_step
        self._sparsity = sparsity
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        self._rampup_begin_step_var = None
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        self._global_step_var = None
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        self._dgc_clip_norm = None
        if grad_clip is not None:
            if not isinstance(grad_clip, GradientClipByNorm):
                raise TypeError(
                    "The type of grad_clip should be 'GradientClipByNorm', because DGCMomentumOptimizer only support GradientClipByNorm"
                )
            assert isinstance(
                num_trainers, int
            ), "The type of num_trainers should be 'int', but received %s" % type(
                value)
            assert num_trainers > 0, "The value of num_trainers should be greater than 0!"
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            self._num_trainers = num_trainers
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            self._dgc_clip_norm = grad_clip.clip_norm * (num_trainers**-0.5)
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        self.regular_type, self.regular_coeff = self._get_regularization_param(
            self.regularization)
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    def _get_regularization_param(self, regularization):
        regular_type = 0
        regular_coeff = 0.0
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        if regularization is not None:
            regular_coeff = regularization._regularization_coeff
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            from .regularizer import L1Decay, L2Decay
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            if isinstance(regularization, L1Decay):
                regular_type = 1
            elif isinstance(regularization, L2Decay):
                regular_type = 2
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            else:
                assert False, 'regularization must be None|L1Decay|L2Deacy'
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        return regular_type, regular_coeff
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    def _is_use_dgc(self, param_var, grad_var):
        var_numel = abs(reduce(lambda x, y: x * y, param_var.shape))
        if var_numel < 16384 or \
           param_var.type == core.VarDesc.VarType.SELECTED_ROWS  or \
           grad_var.type == core.VarDesc.VarType.SELECTED_ROWS  or  \
               param_var.dtype != core.VarDesc.VarType.FP32 :
            return False
        return True

    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)
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        velocity_acc = self._get_accumulator(self._u_velocity_acc_str,
                                             param_and_grad[0])
        assert velocity_acc is not None

        inputs = {
            "Param": param_and_grad[0],
            "Grad": param_and_grad[1],
            "Velocity": velocity_acc,
            "LearningRate": self._create_param_lr(param_and_grad),
        }
        outputs = {
            "ParamOut": param_and_grad[0],
            "VelocityOut": velocity_acc,
        }
        attrs = {"mu": self._momentum, "use_nesterov": self._use_nesterov}
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        if not self._is_use_dgc(param_and_grad[0], param_and_grad[1]):
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            type = "momentum"
        else:
            type = "dgc_momentum"
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            inputs.update({
                "current_step": self._global_step_var,
                "nranks": self._nranks_var
            })
            outputs.update({'Grad_out': param_and_grad[1]})
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            attrs.update({"rampup_begin_step": float(self._rampup_begin_step)})
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        # create the dgc momentum optimize op
        dgc_momentum_op = block.append_op(
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            type=type,
            inputs=inputs,
            outputs=outputs,
            attrs=attrs,
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            stop_gradient=True)
        return dgc_momentum_op

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    def _add_auto_increment_var(self, counter_name, begin, step=1):
        helper = LayerHelper('global_step_counter')
        counter, is_new_var = helper.create_or_get_global_variable(
            name=counter_name, dtype='float32', shape=[1], persistable=True)
        if is_new_var:
            helper.set_variable_initializer(
                counter,
                initializer=Constant(
                    value=float(begin - 1), force_cpu=True))
            helper.main_program.global_block()._prepend_op(
                type='increment',
                inputs={'X': [counter]},
                outputs={'Out': [counter]},
                attrs={'step': float(step)},
                stop_gradient=True)
            counter.stop_gradient = True

        return counter

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    def _add_nranks_var(self, name, value=-1):
        helper = LayerHelper('global_step_counter')
        counter, is_new_var = helper.create_or_get_global_variable(
            name=name, dtype='float32', shape=[1], persistable=True)
        if is_new_var:
            helper.set_variable_initializer(
                counter,
                initializer=Constant(
                    value=float(value), force_cpu=True))
            counter.stop_gradient = True

        return counter

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    def _append_dgc_ops(self, param_and_grads):
        main_program = default_main_program()
        main_program._enable_dgc = True

        # step counter
        self._global_step_var = self._add_auto_increment_var(
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            counter_name=core.dgc.kDGCCounterName(), begin=0)
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        self._nranks_var = self._add_nranks_var(
            name=core.dgc.kDGCNRanksName(), value=-1)

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        # rampup begin step var for all_reduce_op_handle
        self._rampup_begin_step_var = tensor.create_global_var(
            shape=[1],
            dtype=core.VarDesc.VarType.FP32,
            persistable=True,
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            name=core.dgc.kDGCRampUpBeginStepName(),
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            value=self._rampup_begin_step * 1.0,
            force_cpu=True)

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        self.helper = LayerHelper(self.__class__.__name__)

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        for param_var, grad_var in param_and_grads:
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            # reuse velocity in dgc_op and dgc_momentum_op
            u_var = self._add_accumulator(self._u_velocity_acc_str, param_var)

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            if not self._is_use_dgc(param_var, grad_var):
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                continue

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            v_var = self._add_accumulator(self._v_velocity_acc_str, param_var)
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            k_var = tensor.create_global_var(
                shape=[1],
                dtype=param_var.dtype,
                persistable=True,
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                name=param_var.name + core.dgc.kDGCKName(),
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                value=0.0,
                force_cpu=True)

            encoded_var = tensor.create_global_var(
                shape=[1],
                dtype=param_var.dtype,
                persistable=True,
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                name=param_var.name + core.dgc.kDGCEncodedName(),
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                value=0.0,
                force_cpu=False)

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            gather_var = tensor.create_global_var(
                shape=[1],
                dtype=param_var.dtype,
                persistable=True,
                name=param_var.name + core.dgc.kDGCGatherName(),
                value=0.0,
                force_cpu=False)

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            # del back oprolevarname
            op_maker = core.op_proto_and_checker_maker
            backward = core.op_proto_and_checker_maker.OpRole.Backward
            for op in main_program.global_block().ops:
                if not self._is_the_backward_op(op):
                    continue

                var_attr = op.all_attrs()[op_maker.kOpRoleVarAttrName()]
                if param_var.name not in var_attr:
                    continue

                var_attr.remove(param_var.name)
                var_attr.remove(grad_var.name)
                if len(var_attr) > 1:
                    op._set_attr(op_maker.kOpRoleVarAttrName(), var_attr)
                else:
                    op._remove_attr(op_maker.kOpRoleVarAttrName())

            clip_var = grad_var
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            if self._dgc_clip_norm is not None:
                clip_var = self._append_clip_norm(grad_var, self._dgc_clip_norm)
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            self._dgc_op(param_var, clip_var, grad_var, u_var, v_var, k_var,
1444
                         encoded_var, gather_var)
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    def _is_the_backward_op(self, op):
        op_maker = core.op_proto_and_checker_maker
        backward = core.op_proto_and_checker_maker.OpRole.Backward
        if op_maker.kOpRoleVarAttrName() in op.attr_names and \
                int(op.all_attrs()[op_maker.kOpRoleAttrName()]) == int(backward):
            return True
        return False

    def _clip_by_norm(self, x, max_norm, name=None):
        args = {'x': x, 'max_norm': max_norm, 'name': name}

        helper = LayerHelper("dgc_clip_by_norm_op", **args)

        if name is None:
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            name = unique_name.generate_with_ignorable_key(".".join(
                [helper.name, 'tmp']))
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        out = helper.create_variable(
            type=x.type, name=name, dtype=x.dtype, persistable=False)

        helper.append_op(
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            type="dgc_clip_by_norm",
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            inputs={"X": x,
                    "current_step": self._global_step_var},
            attrs={
                "max_norm": max_norm,
                "rampup_begin_step": float(self._rampup_begin_step)
            },
            outputs={"Out": out})
        return out

    def _append_clip_norm(self, grad_var, clip_norm):
        with grad_var.block.program._backward_role_guard():
            return self._clip_by_norm(
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                x=grad_var, max_norm=clip_norm, name=grad_var.name)
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    def _dgc_op(self, param_var, clip_var, grad_var, u_var, v_var, k_var,
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                encoded_var, gather_var):
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        block = framework.default_main_program().global_block()
        op_maker = core.op_proto_and_checker_maker
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        regular_type = self.regular_type
        regular_coeff = self.regular_coeff
        # The regularizer of the Parameters have higher priority
        if param_var.regularizer is not None:
            regular_type, regular_coeff = self._get_regularization_param(
                param_var.regularizer)

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        dgc_op = block.append_op(
            type="dgc",
            inputs={
                "U": u_var,
                "V": v_var,
                "Grad": clip_var,
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                "Param": param_var,
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                "current_step": self._global_step_var,
                "nranks": self._nranks_var,
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            },
            outputs={
                "U_out": u_var,
                "V_out": v_var,
                "EncodeGrad": encoded_var,
                "k": k_var,
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                "Grad_out": grad_var,
                "GatherBuff": gather_var,
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            },
            attrs={
                "m": self._momentum,
                "sparsity": self._sparsity,
                "use_nesterov": self._use_nesterov,
                "rampup_begin_step": float(self._rampup_begin_step),
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                "rampup_step": float(self._rampup_step),
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                "regular_coeff": float(regular_coeff),
                "regular_type": int(regular_type),
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            },
            stop_gradient=True)

        backward = op_maker.OpRole.Backward
        dgc_op._set_attr(op_maker.kOpRoleAttrName(), backward)
        dgc_op._set_attr(op_maker.kOpRoleVarAttrName(),
                         [param_var.name, grad_var.name])

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    @imperative_base.no_grad
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    def apply_gradients(self, params_grads):
        params_grads = sorted(params_grads, key=lambda x: x[0].name)
        params_grads, table_param_and_grad, table_optimize_op = \
            self._process_distribute_lookuptable(params_grads)

        not_dgc_params_grads = []
        dgc_params_grads = []
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        # DGC clip and regularization in optimizer.backward
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        for param, grad in params_grads:
            if not self._is_use_dgc(param, grad):
                not_dgc_params_grads.append((param, grad))
            else:
                dgc_params_grads.append((param, grad))

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        # 'optimizer(grad_clip)' or 'set_gradient_clip'
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        if self._grad_clip is not None:
            not_dgc_params_grads = self._grad_clip(not_dgc_params_grads)
        else:
            not_dgc_params_grads = append_gradient_clip_ops(
                not_dgc_params_grads)
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        not_dgc_params_grads = append_regularization_ops(not_dgc_params_grads,
                                                         self.regularization)

        params_grads = not_dgc_params_grads + dgc_params_grads
        params_grads = sorted(params_grads, key=lambda x: x[0].name)

        optimize_ops = self._create_optimization_pass(params_grads)
        if table_optimize_op is not None:
            optimize_ops.append(table_optimize_op)
            params_grads.append(table_param_and_grad)

        return optimize_ops

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class LarsMomentumOptimizer(Optimizer):
    """
    Momentum optimizer with LARS support

    The update equations are as follows:

    .. math::

        & local\_learning\_rate = learning\_rate * lars\_coeff * \\
          \\frac{||param||}{||gradient|| + lars\_weight\_decay * ||param||}

        & velocity = mu * velocity + local\_learning\_rate * (gradient + lars\_weight\_decay * param)

        & param = param - velocity

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    Parameters:
        learning_rate (float|Variable): The learning rate used to update parameters. \
            Can be a float value or a Variable with one float value as data element. \
            momentum (float): momentum factor
        lars_coeff (float): Defines how much we trust the layer to change its weights.
        lars_weight_decay (float): Weight decay coefficient for decaying using LARS.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): This parameter is used by developers to print debugging information. \
            For details, please refer to :ref:`api_guide_Name`. Default is None.
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
            import numpy as np

            np_inp = np.array([[1.0, 2.0], [3.0, 4.0]], dtype=np.float32)
            inp = fluid.layers.data(
                name="inp", shape=[2, 2], append_batch_size=False)
            out = fluid.layers.fc(inp, size=3)
            out = fluid.layers.reduce_sum(out)
            optimizer = fluid.optimizer.LarsMomentumOptimizer(learning_rate=0.001, momentum=0.9)
            optimizer.minimize(out)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())
            exe.run(
                feed={"inp": np_inp},
                fetch_list=[out.name])
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    """
    _velocity_acc_str = "velocity"

    def __init__(self,
                 learning_rate,
                 momentum,
                 lars_coeff=0.001,
                 lars_weight_decay=0.0005,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None):
        assert learning_rate is not None
        assert momentum is not None
        super(LarsMomentumOptimizer, self).__init__(
            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
        self.type = "lars_momentum"
        self._momentum = momentum
        self._lars_coeff = float(lars_coeff)
        self._lars_weight_decay = float(lars_weight_decay)

    def _create_accumulators(self, block, parameters):
        assert isinstance(block, framework.Block)

        for p in parameters:
            self._add_accumulator(self._velocity_acc_str, p)

    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)

        velocity_acc = self._get_accumulator(self._velocity_acc_str,
                                             param_and_grad[0])
        # create the momentum optimize op
        momentum_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "Velocity": velocity_acc,
                "LearningRate": self._create_param_lr(param_and_grad)
            },
            outputs={
                "ParamOut": param_and_grad[0],
                "VelocityOut": velocity_acc
            },
            attrs={
                "mu": self._momentum,
                "lars_coeff": self._lars_coeff,
                "lars_weight_decay": self._lars_weight_decay
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            },
            stop_gradient=True)
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        return momentum_op


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class AdagradOptimizer(Optimizer):
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    """
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    The Adaptive Gradient optimizer (Adagrad for short) can adaptively assign
    different learning rates to individual parameters.
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    The parameter ``param_out`` update rule with gradient ``grad``:
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    .. math::

        moment\_out &= moment + grad * grad

        param\_out &= param - \\frac{learning\_rate * grad}{\sqrt{moment\_out} + \epsilon}

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    Related paper: `Adaptive Subgradient Methods for Online Learning and
    Stochastic Optimization <http://www.jmlr.org/papers/volume12/duchi11a/duchi11a.pdf>`_.

    The original paper does not have the ``epsilon`` attribute. It is added here
    in our implementation as also proposed `Per-parameter adaptive learning rate
    methods <http://cs231n.github.io/neural-networks-3/#ada>`_
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    for numerical stability to avoid the division by zero error.

    Args:
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        learning_rate (float|Variable): The learning rate used to update ``Parameter``.
            It can be a float value or a ``Variable`` with a float type.
        epsilon (float, optional): A small float value for numerical stability.
            The default value is 1e-06.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name`.
            The default value is None.
        initial_accumulator_value (float, optional): Initial value for moment accumulator.
            The default value is 0.0.
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    Examples:
        .. code-block:: python

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            import numpy as np
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            import paddle.fluid as fluid
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            np_inp = np.array([[1.0, 2.0], [3.0, 4.0]], dtype=np.float32)
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            inp = fluid.data(name="inp", shape=[2, 2])
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            out = fluid.layers.fc(inp, size=3)
            out = fluid.layers.reduce_sum(out)
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            optimizer = fluid.optimizer.AdagradOptimizer(learning_rate=0.2)
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            optimizer.minimize(out)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())
            exe.run(
                feed={"inp": np_inp},
                fetch_list=[out.name])
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    """
    _moment_acc_str = "moment"

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    def __init__(self,
                 learning_rate,
                 epsilon=1.0e-6,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None,
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                 initial_accumulator_value=0.0):
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        assert learning_rate is not None
        assert epsilon is not None
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        super(AdagradOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        self.type = "adagrad"
        self._epsilon = epsilon
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        self.initial_accumulator_value = initial_accumulator_value
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    def _create_accumulators(self, block, parameters):
        assert isinstance(block, framework.Block)

        for p in parameters:
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            self._add_accumulator(
                self._moment_acc_str,
                p,
                fill_value=self.initial_accumulator_value)
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    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)

        moment_acc = self._get_accumulator(self._moment_acc_str,
                                           param_and_grad[0])
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        # Create the adagrad optimizer op
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        adagrad_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "Moment": moment_acc,
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                "LearningRate": self._create_param_lr(param_and_grad)
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            },
            outputs={"ParamOut": param_and_grad[0],
                     "MomentOut": moment_acc},
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            attrs={"epsilon": self._epsilon},
            stop_gradient=True)
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        return adagrad_op
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class AdamOptimizer(Optimizer):
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    """
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    The Adam optimizer uses an optimization described at the end
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    of section 2 of `Adam paper <https://arxiv.org/abs/1412.6980>`_ ,
    it can dynamically adjusts the learning rate of each parameter using
    the 1st moment estimates and the 2nd moment estimates of the gradient.
    
    The parameter ``param_out`` update rule with gradient ``grad``:
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    .. math::

        t & = t + 1

        moment\_1\_out & = {\\beta}_1 * moment\_1 + (1 - {\\beta}_1) * grad

        moment\_2\_out & = {\\beta}_2 * moment\_2 + (1 - {\\beta}_2) * grad * grad

        learning\_rate & = learning\_rate * \\
                          \\frac{\sqrt{1 - {\\beta}_2^t}}{1 - {\\beta}_1^t}

        param\_out & = param - learning\_rate * \\frac{moment\_1}{\sqrt{moment\_2} + \epsilon}

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    Related paper: `Adam: A Method for Stochastic Optimization <https://arxiv.org/abs/1412.6980>`_

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    Args:
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        learning_rate (float|Variable, optional): The learning rate used to update ``Parameter``.
            It can be a float value or a ``Variable`` with a float type. The default value is 0.001.
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        beta1 (float|Variable, optional): The exponential decay rate for the 1st moment estimates.
            It should be a float number or a Variable with shape [1] and data type as float32.
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            The default value is 0.9.
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        beta2 (float|Variable, optional): The exponential decay rate for the 2nd moment estimates.
            It should be a float number or a Variable with shape [1] and data type as float32.
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            The default value is 0.999.
        epsilon (float, optional): A small float value for numerical stability.
            The default value is 1e-08.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name`.
            The default value is None.
        lazy_mode (bool, optional): The official Adam algorithm has two moving-average accumulators.
            The accumulators are updated at every step. Every element of the two moving-average
            is updated in both dense mode and sparse mode. If the size of parameter is very large,
            then the update may be very slow. The lazy mode only update the element that has
            gradient in current mini-batch, so it will be much more faster. But this mode has
            different semantics with the original Adam algorithm and may lead to different result.
            The default value is False.
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    Examples:
        .. code-block:: python

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            import paddle
            import paddle.fluid as fluid

            place = fluid.CPUPlace()
            main = fluid.Program()
            with fluid.program_guard(main):
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                x = fluid.data(name='x', shape=[None, 13], dtype='float32')
                y = fluid.data(name='y', shape=[None, 1], dtype='float32')
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                y_predict = fluid.layers.fc(input=x, size=1, act=None)
                cost = fluid.layers.square_error_cost(input=y_predict, label=y)
                avg_cost = fluid.layers.mean(cost)

                adam_optimizer = fluid.optimizer.AdamOptimizer(0.01)
                adam_optimizer.minimize(avg_cost)

                fetch_list = [avg_cost]
                train_reader = paddle.batch(
                    paddle.dataset.uci_housing.train(), batch_size=1)
                feeder = fluid.DataFeeder(place=place, feed_list=[x, y])
                exe = fluid.Executor(place)
                exe.run(fluid.default_startup_program())
                for data in train_reader():
                    exe.run(main, feed=feeder.feed(data), fetch_list=fetch_list)
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        .. code-block:: python

            # Adam with beta1/beta2 as Variable
            import paddle
            import paddle.fluid as fluid
            import paddle.fluid.layers.learning_rate_scheduler as lr_scheduler

            place = fluid.CPUPlace()
            main = fluid.Program()
            with fluid.program_guard(main):
                x = fluid.data(name='x', shape=[None, 13], dtype='float32')
                y = fluid.data(name='y', shape=[None, 1], dtype='float32')
                y_predict = fluid.layers.fc(input=x, size=1, act=None)
                cost = fluid.layers.square_error_cost(input=y_predict, label=y)
                avg_cost = fluid.layers.mean(cost)

                # define beta decay variable
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                def get_decayed_betas(beta1_init, beta2_init, decay_steps, decay_rate):
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                    global_step = lr_scheduler._decay_step_counter()

                    beta1 = fluid.layers.create_global_var(
                        shape=[1],
                        value=float(beta1_init),
                        dtype='float32',
                        # set persistable for save checkpoints and resume
                        persistable=True,
                        name="beta1")
                    beta2 = fluid.layers.create_global_var(
                        shape=[1],
                        value=float(beta2_init),
                        dtype='float32',
                        # set persistable for save checkpoints and resume
                        persistable=True,
                        name="beta2")

                    div_res = global_step / decay_steps
                    decayed_beta1 = beta1_init * (decay_rate**div_res)
                    decayed_beta2 = beta2_init * (decay_rate**div_res)
                    fluid.layers.assign(decayed_beta1, beta1)
                    fluid.layers.assign(decayed_beta2, beta2)

                    return beta1, beta2

                beta1, beta2 = get_decayed_betas(0.9, 0.99, 1e5, 0.9)
                adam_optimizer = fluid.optimizer.AdamOptimizer(
                                                    learning_rate=0.01,
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                                                    beta1=beta1,
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                                                    beta2=beta2)
                adam_optimizer.minimize(avg_cost)

                fetch_list = [avg_cost]
                train_reader = paddle.batch(
                    paddle.dataset.uci_housing.train(), batch_size=1)
                feeder = fluid.DataFeeder(place=place, feed_list=[x, y])
                exe = fluid.Executor(place)
                exe.run(fluid.default_startup_program())
                for data in train_reader():
                    exe.run(main, feed=feeder.feed(data), fetch_list=fetch_list)
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    """
    _moment1_acc_str = "moment1"
    _moment2_acc_str = "moment2"
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    _beta1_pow_acc_str = "beta1_pow_acc"
    _beta2_pow_acc_str = "beta2_pow_acc"
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    def __init__(self,
                 learning_rate=0.001,
                 beta1=0.9,
                 beta2=0.999,
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                 epsilon=1e-8,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None,
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                 lazy_mode=False):
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        assert learning_rate is not None
        assert beta1 is not None
        assert beta2 is not None
        assert epsilon is not None
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        super(AdamOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        self.type = "adam"
        self._beta1 = beta1
        self._beta2 = beta2
        self._epsilon = epsilon
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        self._lazy_mode = lazy_mode
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    def _create_accumulators(self, block, parameters):
        assert isinstance(block, framework.Block)

        # Create accumulator tensors for first and second moments
        for p in parameters:
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            self._add_accumulator(self._moment1_acc_str, p)
            self._add_accumulator(self._moment2_acc_str, p)
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            self._add_accumulator(
                name=self._beta1_pow_acc_str,
                param=p,
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                fill_value=0.9 if isinstance(self._beta1, Variable) \
                        else self._beta1,
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                shape=[1],
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                type=core.VarDesc.VarType.LOD_TENSOR, device='cpu')
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            self._add_accumulator(
                name=self._beta2_pow_acc_str,
                param=p,
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                fill_value=0.999 if isinstance(self._beta2, Variable) \
                        else self._beta2,
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                shape=[1],
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                type=core.VarDesc.VarType.LOD_TENSOR, device='cpu')
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    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)

        moment1 = self._get_accumulator(self._moment1_acc_str,
                                        param_and_grad[0])
        moment2 = self._get_accumulator(self._moment2_acc_str,
                                        param_and_grad[0])
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        beta1_pow_acc = self._get_accumulator(self._beta1_pow_acc_str,
                                              param_and_grad[0])
        beta2_pow_acc = self._get_accumulator(self._beta2_pow_acc_str,
                                              param_and_grad[0])
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        lr = self._create_param_lr(param_and_grad)
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        # create the adam optimize op
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        if framework.in_dygraph_mode():
            _beta1 = self._beta1 if not isinstance(
                self._beta1, Variable) else self._beta1.numpy().item(0)
            _beta2 = self._beta2 if not isinstance(
                self._beta2, Variable) else self._beta2.numpy().item(0)
            _, _, _, _, _ = core.ops.adam(
                param_and_grad[0], param_and_grad[1], lr, moment1, moment2,
                beta1_pow_acc, beta2_pow_acc, param_and_grad[0], moment1,
                moment2, beta1_pow_acc, beta2_pow_acc, 'epsilon', self._epsilon,
                'lazy_mode', self._lazy_mode, 'min_row_size_to_use_multithread',
                1000, 'beta1', _beta1, 'beta2', _beta2)

            return None

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        inputs = {
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            "Param": [param_and_grad[0]],
            "Grad": [param_and_grad[1]],
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            "LearningRate": [lr],
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            "Moment1": [moment1],
            "Moment2": [moment2],
            "Beta1Pow": [beta1_pow_acc],
            "Beta2Pow": [beta2_pow_acc]
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        }
        outputs = {
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            "ParamOut": [param_and_grad[0]],
            "Moment1Out": [moment1],
            "Moment2Out": [moment2],
            "Beta1PowOut": [beta1_pow_acc],
            "Beta2PowOut": [beta2_pow_acc],
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        }
        attrs = {
            "epsilon": self._epsilon,
            "lazy_mode": self._lazy_mode,
            "min_row_size_to_use_multithread": 1000
        }

        if isinstance(self._beta1, Variable):
            inputs['Beta1Tensor'] = self._beta1
        else:
            attrs['beta1'] = self._beta1
        if isinstance(self._beta2, Variable):
            inputs['Beta2Tensor'] = self._beta2
        else:
            attrs['beta2'] = self._beta2

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        adam_op = block.append_op(
            type=self.type,
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            inputs=inputs,
            outputs=outputs,
            attrs=attrs,
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            stop_gradient=True)
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        return adam_op

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class AdamaxOptimizer(Optimizer):
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    """
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    The Adamax optimizer is implemented based on the Adamax Optimization 
    in Section 7 of `Adam paper <https://arxiv.org/abs/1412.6980>`_.
    The Adamax algorithm is a variant of the Adam algorithm based on the infinite norm,
    which makes the learning rate update algorithm more stable and simple.
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    The parameter ``param_out`` update rule with gradient ``grad``:
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    .. math::

        t & = t + 1

        moment\_out & = {\\beta}_1 * moment + (1 - {\\beta}_1) * grad

        inf\_norm\_out & = max({\\beta}_2 * inf\_norm + \epsilon, |grad|)

        learning\_rate & = \\frac{learning\_rate}{1 - {\\beta}_1^t}

        param\_out & = param - learning\_rate * \\frac{moment\_out}{inf\_norm\_out}

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    Related paper: `Adam: A Method for Stochastic Optimization <https://arxiv.org/abs/1412.6980>`_
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    The original paper does not have an ``epsilon`` attribute,
    it is added here for numerical stability to prevent the division by 0 error.

    Args:
        learning_rate (float|Variable, optional): The learning rate used to update ``Parameter``.
            It can be a float value or a ``Variable`` with a float type. The default value is 0.001.
        beta1 (float, optional): The exponential decay rate for the 1st moment estimates.
            The default value is 0.9.
        beta2 (float, optional): The exponential decay rate for the 2nd moment estimates.
            The default value is 0.999.
        epsilon (float, optional): A small float value for numerical stability.
            The default value is 1e-08.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name`.
            The default value is None.

    **Notes**:
        **Currently, AdamaxOptimizer doesn't support sparse parameter optimization.**
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    Examples:
        .. code-block:: python

          import paddle.fluid as fluid
          import numpy

          # First create the Executor.
          place = fluid.CPUPlace() # fluid.CUDAPlace(0)
          exe = fluid.Executor(place)

          train_program = fluid.Program()
          startup_program = fluid.Program()
          with fluid.program_guard(train_program, startup_program):
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              data = fluid.data(name='X', shape=[None, 1], dtype='float32')
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              hidden = fluid.layers.fc(input=data, size=10)
              loss = fluid.layers.mean(hidden)
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              adam = fluid.optimizer.AdamaxOptimizer(learning_rate=0.2)
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              adam.minimize(loss)

          # Run the startup program once and only once.
          exe.run(startup_program)

          x = numpy.random.random(size=(10, 1)).astype('float32')
          outs = exe.run(program=train_program,
                        feed={'X': x},
                         fetch_list=[loss.name])
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    """
    _moment_acc_str = "moment"
    _inf_norm_acc_str = "inf_norm"
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    _beta1_pow_acc_str = "beta1_pow_acc"
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    def __init__(self,
                 learning_rate=0.001,
                 beta1=0.9,
                 beta2=0.999,
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                 epsilon=1e-8,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        assert learning_rate is not None
        assert beta1 is not None
        assert beta2 is not None
        assert epsilon is not None
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        super(AdamaxOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        self.type = "adamax"
        self._beta1 = beta1
        self._beta2 = beta2
        self._epsilon = epsilon

    def _create_accumulators(self, block, parameters):
        # Create accumulator tensors for first moment and infinity norm
        for p in parameters:
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            self._add_accumulator(self._moment_acc_str, p)
            self._add_accumulator(self._inf_norm_acc_str, p)
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            self._add_accumulator(
                name=self._beta1_pow_acc_str,
                param=p,
                fill_value=self._beta1,
                shape=[1])
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    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)

        moment = self._get_accumulator(self._moment_acc_str, param_and_grad[0])
        inf_norm = self._get_accumulator(self._inf_norm_acc_str,
                                         param_and_grad[0])
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        beta1_pow_acc = self._get_accumulator(self._beta1_pow_acc_str,
                                              param_and_grad[0])
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        # create the adamax optimize op
        adamax_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
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                "LearningRate": self._create_param_lr(param_and_grad),
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                "Moment": moment,
                "InfNorm": inf_norm,
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                "Beta1Pow": beta1_pow_acc
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            },
            outputs={
                "ParamOut": param_and_grad[0],
                "MomentOut": moment,
                "InfNormOut": inf_norm
            },
            attrs={
                "beta1": self._beta1,
                "beta2": self._beta2,
                "epsilon": self._epsilon
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            },
            stop_gradient=True)
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        return adamax_op

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    def _finish_update(self, block, parameters_and_grads):
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        """Update Beta1 Power accumulator
        """
        assert isinstance(block, framework.Block)
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        for param, grad in parameters_and_grads:
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            if grad is None or param.trainable is False:
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                continue
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            with param.block.program._optimized_guard(
                [param, grad]), name_scope('adamx'):
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                beta1_pow_acc = self._get_accumulator(self._beta1_pow_acc_str,
                                                      param)
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                block.append_op(
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                    type="scale",
                    inputs={"X": beta1_pow_acc},
                    outputs={"Out": beta1_pow_acc},
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                    attrs={"scale": self._beta1},
                    stop_gradient=True)
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class DpsgdOptimizer(Optimizer):
    """
    We implement the Dpsgd optimizer according to CCS16 paper -
    Deep Learning with Differential Privacy.

    Examples:
        .. code-block:: python

          import paddle.fluid as fluid
          import numpy

          # First create the Executor.
          place = fluid.CPUPlace() # fluid.CUDAPlace(0)
          exe = fluid.Executor(place)

          train_program = fluid.Program()
          startup_program = fluid.Program()
          with fluid.program_guard(train_program, startup_program):
              data = fluid.layers.data(name='X', shape=[1], dtype='float32')
              hidden = fluid.layers.fc(input=data, size=10)
              loss = fluid.layers.mean(hidden)
              optimizer = fluid.optimizer.Dpsgd(learning_rate=0.01, clip=10.0, batch_size=16.0, sigma=1.0)
              optimizer.minimize(loss)

          # Run the startup program once and only once.
          exe.run(startup_program)

          x = numpy.random.random(size=(10, 1)).astype('float32')
          outs = exe.run(program=train_program,
                        feed={'X': x},
                         fetch_list=[loss.name])

    Args:
        learning_rate (float|Variable): the learning rate used to update parameters. \
        Can be a float value or a Variable with one float value as data element.
        clip (float): clipping threshold
        batch_size (float): batch size.
        sigma (float): for gaussian noise.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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    Notes:
       Currently, DpsgdOptimizer doesn't support sparse parameter optimization.
    """

    def __init__(self,
                 learning_rate=0.001,
                 clip=0.9,
                 batch_size=0.999,
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                 sigma=1e-8,
                 parameter_list=None):
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        assert learning_rate is not None
        assert clip is not None
        assert batch_size is not None
        assert sigma is not None
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        super(DpsgdOptimizer, self).__init__(
            learning_rate=learning_rate, parameter_list=parameter_list)
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        self.type = "dpsgd"
        self._clip = clip
        self._batch_size = batch_size
        self._sigma = sigma
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        '''
        Note(wangzhongpu):
        This property is only used for debugging, do not need to set it!
        Dpsgd operator use time(NULL) as random seed to generate random number.
        However, during debugging, we need determinated result, so we will set self._seed to a fixed number.
        '''
        self._seed = None
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    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)

        # create the dpsgd optimize op
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        if self._seed == None:
            self._seed = 0

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        dpsgd_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "LearningRate": self._create_param_lr(param_and_grad)
            },
            outputs={"ParamOut": param_and_grad[0]},
            attrs={
                "clip": self._clip,
                "batch_size": self._batch_size,
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                "sigma": self._sigma,
                "seed": self._seed
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            },
            stop_gradient=True)

        return dpsgd_op


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class DecayedAdagradOptimizer(Optimizer):
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    """
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    The Decayed Adagrad optimizer can be seen as an Adagrad algorithm that introduces
    the decay rate to solve the problem of a sharp drop in the learning rate
    during model training when using the AdagradOptimizer.
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    The parameter ``param_out`` update rule with gradient ``grad``:
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    .. math::

        moment\_out & = decay * moment + (1 - decay) * grad * grad

        param\_out & = param - \\frac{learning\_rate * grad}{\sqrt{moment\_out} + \epsilon}

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    Related paper: `Adaptive Subgradient Methods for Online Learning and Stochastic
    Optimization <http://www.jmlr.org/papers/volume12/duchi11a/duchi11a.pdf>`_.

    The original paper does not have an ``epsilon`` attribute. It is added here for numerical
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    stability to avoid the division by zero error.

    Args:
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        learning_rate (float|Variable): The learning rate used to update ``Parameter``.
            It can be a float value or a ``Variable`` with a float type.
        decay (float, optional): The decay rate. The default value is 0.95.
        epsilon (float, optional): A small float value for numerical stability.
            The default value is 1e-06.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name`.
            The default value is None.

    **Notes**:
        **Currently, DecayedAdagradOptimizer doesn't support sparse parameter optimization.**
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid

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            x = fluid.data( name='x', shape=[None, 10], dtype='float32' )
            trans = fluid.layers.fc( x, 100 )
            cost = fluid.layers.reduce_mean( trans )
            optimizer = fluid.optimizer.DecayedAdagradOptimizer(learning_rate=0.2)
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            optimizer.minimize(cost)
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    """
    _moment_acc_str = "moment"

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    def __init__(self,
                 learning_rate,
                 decay=0.95,
                 epsilon=1.0e-6,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        assert learning_rate is not None
        assert decay is not None
        assert epsilon is not None

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        super(DecayedAdagradOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        self.type = "decayed_adagrad"
        self._decay = decay
        self._epsilon = epsilon

    def _create_accumulators(self, block, parameters):
        assert isinstance(block, framework.Block)

        for p in parameters:
            self._add_accumulator(self._moment_acc_str, p)

    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)

        moment_acc = self._get_accumulator(self._moment_acc_str,
                                           param_and_grad[0])

        # Create the decayed adagrad optimizer op
        decayed_adagrad_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "Moment": moment_acc,
                "LearningRate": self._create_param_lr(param_and_grad)
            },
            outputs={"ParamOut": param_and_grad[0],
                     "MomentOut": moment_acc},
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            attrs={"epsilon": self._epsilon,
                   "decay": self._decay},
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            stop_gradient=True)
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        return decayed_adagrad_op
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class AdadeltaOptimizer(Optimizer):
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    """
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    **Notes: This API does not support sparse parameter optimization.**
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    Adadelta Optimizer. Please refer to this for details:
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    `ADADELTA: AN ADAPTIVE LEARNING RATE METHOD <https://arxiv.org/abs/1212.5701>`_.

    The update is done as follows:
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    .. math::

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        E(g_t^2) &= \\rho * E(g_{t-1}^2) + (1-\\rho) * g^2
2449

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        learning\_rate &= \sqrt{ ( E(dx_{t-1}^2) + \\epsilon ) / ( E(g_t^2) + \\epsilon ) }
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        E(dx_t^2) &= \\rho * E(dx_{t-1}^2) + (1-\\rho) * (-g*learning\_rate)^2
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    Args:
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        learning_rate (float|Variable): global learning rate.
        epsilon (float): a small float number for numeric stability. Default 1.0e-6.
        rho (float): a floating point value indicating the decay rate. Default 0.95.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): The default value is None. Normally there is no need for user
                to set this property. For more information, please refer to
                :ref:`api_guide_Name` .
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            image = fluid.data(name='image', shape=[None, 28], dtype='float32')
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            fc = fluid.layers.fc(image, size=10)
            cost = fluid.layers.reduce_mean(fc)
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            optimizer = fluid.optimizer.Adadelta(
                learning_rate=0.0003, epsilon=1.0e-6, rho=0.95)
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            # optimizer_ops is a list of optimizer operators to update parameters
            # params_grads is a list of (param, param_grad), where param is each
            # parameter and param_grad is the gradient variable of param.
            optimizer_ops, params_grads = optimizer.minimize(cost)
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    """
2490

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    _avg_squared_grad_acc_str = "_avg_squared_grad"
    _avg_squared_update_acc_str = "_avg_squared_update"

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    def __init__(self,
                 learning_rate,
                 epsilon=1.0e-6,
                 rho=0.95,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        if learning_rate is None:
            raise ValueError("learning_rate is not set.")
        if epsilon is None:
            raise ValueError("epsilon is not set.")
        if rho is None:
            raise ValueError("rho is not set.")
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        super(AdadeltaOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        self.type = "adadelta"
        self._epsilon = epsilon
        self._rho = rho

    def _create_accumulators(self, block, parameters):
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        if not isinstance(block, framework.Block):
            raise TypeError("block is not instance of framework.Block.")
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        for p in parameters:
            self._add_accumulator(self._avg_squared_grad_acc_str, p)
            self._add_accumulator(self._avg_squared_update_acc_str, p)

    def _append_optimize_op(self, block, param_and_grad):
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        if not isinstance(block, framework.Block):
            raise TypeError("block is not instance of framework.Block.")
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        avg_squared_grad_acc = self._get_accumulator(
            self._avg_squared_grad_acc_str, param_and_grad[0])
        avg_squared_update_acc = self._get_accumulator(
            self._avg_squared_update_acc_str, param_and_grad[0])

        # Create the adadelta optimizer op
        adadelta_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "AvgSquaredGrad": avg_squared_grad_acc,
                "AvgSquaredUpdate": avg_squared_update_acc
            },
            outputs={
                "ParamOut": param_and_grad[0],
                "AvgSquaredGradOut": avg_squared_grad_acc,
                "AvgSquaredUpdateOut": avg_squared_update_acc
            },
            attrs={"epsilon": self._epsilon,
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                   "rho": self._rho},
            stop_gradient=True)
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        return adadelta_op


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class RMSPropOptimizer(Optimizer):
    """
    Root Mean Squared Propagation (RMSProp) is an unpublished, adaptive learning
    rate method. The original slides proposed RMSProp: Slide 29 of
    http://www.cs.toronto.edu/~tijmen/csc321/slides/lecture_slides_lec6.pdf .

    The original equation is as follows:

    ..  math::

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        r(w, t) & = \\rho r(w, t-1) + (1 - \\rho)(\\nabla Q_{i}(w))^2
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        w & = w - \\frac{\\eta} {\\sqrt{r(w,t) + \\epsilon}} \\nabla Q_{i}(w)

    The first equation calculates moving average of the squared gradient for
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    each weight. Then dividing the gradient by :math:`sqrt{v(w,t)}`.
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    In some cases, adding a momentum term :math: `\\beta` is beneficial.
    In our implementation, Nesterov momentum is used:

    ..  math::

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        r(w, t) & = \\rho r(w, t-1) + (1 - \\rho)(\\nabla Q_{i}(w))^2
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        v(w, t) & = \\beta v(w, t-1) + \\frac{\\eta} {\\sqrt{r(w,t) +
            \\epsilon}} \\nabla Q_{i}(w)

        w & = w - v(w, t)

    if centered is True:

    ..  math::

        r(w, t) & = \\rho r(w, t-1) + (1 - \\rho)(\\nabla Q_{i}(w))^2

        g(w, t) & = \\rho g(w, t-1) + (1 - \\rho)\\nabla Q_{i}(w)

        v(w, t) & = \\beta v(w, t-1) + \\frac{\\eta} {\\sqrt{r(w,t) - (g(w, t))^2 +
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            \\epsilon}} \\nabla Q_{i}(w)

        w & = w - v(w, t)

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    where, :math:`\\rho` is a hyperparameter and typical values are 0.9, 0.95
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    and so on. :math: `beta` is the momentum term. :math: `\\epsilon` is a
    smoothing term to avoid division by zero, usually set somewhere in range
    from 1e-4 to 1e-8.


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    Parameters:
        learning_rate(float): Global learning rate.
        rho(float): rho is :math: `\\rho` in equation, default is 0.95.
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        epsilon(float): :math: `\\epsilon` in equation is smoothing term to
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            avoid division by zero, default is 1e-6.
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        momentum(float): :math:`\\beta` in equation is the momentum term,
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            default is 0.0.
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        centered(bool): If True, gradients are normalized by the estimated variance of
            the gradient; if False, by the uncentered second moment. Setting this to
            True may help with training, but is slightly more expensive in terms of
            computation and memory. Defaults to False.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): This parameter is used by developers to print debugging information. \
            For details, please refer to :ref:`api_guide_Name`. Default is None.
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    Raises:
        ValueError: If learning_rate, rho, epsilon, momentum are None.

    Examples:
          .. code-block:: python

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            import paddle
            import paddle.fluid as fluid
            import numpy as np

            place = fluid.CPUPlace()
            main = fluid.Program()
            with fluid.program_guard(main):
                x = fluid.layers.data(name='x', shape=[13], dtype='float32')
                y = fluid.layers.data(name='y', shape=[1], dtype='float32')
                y_predict = fluid.layers.fc(input=x, size=1, act=None)
                cost = fluid.layers.square_error_cost(input=y_predict, label=y)
                avg_cost = fluid.layers.mean(cost)

                rms_optimizer = fluid.optimizer.RMSProp(learning_rate=0.1)
                rms_optimizer.minimize(avg_cost)

                fetch_list = [avg_cost]
                train_reader = paddle.batch(
                    paddle.dataset.uci_housing.train(), batch_size=1)
                feeder = fluid.DataFeeder(place=place, feed_list=[x, y])
                exe = fluid.Executor(place)
                exe.run(fluid.default_startup_program())
                for data in train_reader():
                    exe.run(main, feed=feeder.feed(data), fetch_list=fetch_list)

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    """

    _momentum_acc_str = "momentum"
    _mean_square_acc_str = "mean_square"
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    _mean_grad_acc_str = "mean_grad"
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    def __init__(self,
                 learning_rate,
                 rho=0.95,
                 epsilon=1.0e-6,
                 momentum=0.0,
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                 centered=False,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        super(RMSPropOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        if learning_rate is None:
            raise ValueError("learning_rate is not set.")
        if rho is None:
            raise ValueError("rho is not set.")
        if epsilon is None:
            raise ValueError("epsilon is not set.")
        if momentum is None:
            raise ValueError("momentum is not set.")

        self.type = "rmsprop"
        self._rho = rho
        self._epsilon = epsilon
        self._momentum = momentum
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        self._centered = centered
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    def _create_accumulators(self, block, parameters):
        if not isinstance(block, framework.Block):
            raise TypeError("block is not instance of framework.Block.")

        for p in parameters:
            self._add_accumulator(self._momentum_acc_str, p)
            self._add_accumulator(self._mean_square_acc_str, p)
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            self._add_accumulator(self._mean_grad_acc_str, p)
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    def _append_optimize_op(self, block, param_and_grad):
        if not isinstance(block, framework.Block):
            raise TypeError("block is not instance of framework.Block.")

        momentum_acc = self._get_accumulator(self._momentum_acc_str,
                                             param_and_grad[0])
        mean_square_acc = self._get_accumulator(self._mean_square_acc_str,
                                                param_and_grad[0])
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        mean_grad_acc = self._get_accumulator(self._mean_grad_acc_str,
                                              param_and_grad[0])
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        rmsprop_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "Moment": momentum_acc,
                "MeanSquare": mean_square_acc,
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                "MeanGrad": mean_grad_acc,
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                "LearningRate": self._create_param_lr(param_and_grad),
            },
            outputs={
                "ParamOut": param_and_grad[0],
                "MomentOut": momentum_acc,
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                "MeanSquareOut": mean_square_acc,
                "MeanGradOut": mean_grad_acc
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            },
            attrs={
                "epsilon": self._epsilon,
                "decay": self._rho,
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                "momentum": self._momentum,
                "centered": self._centered
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            },
            stop_gradient=True)
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        return rmsprop_op


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class FtrlOptimizer(Optimizer):
    """
    FTRL (Follow The Regularized Leader) Optimizer.

    The paper that proposed Follow The Regularized Leader (FTRL):
    (https://www.eecs.tufts.edu/~dsculley/papers/ad-click-prediction.pdf)

    ..  math::

        &new\_accum = squared\_accum + grad^2

        &if (lr\_power == -0.5):

        &\quad  linear\_accum += grad - \\frac{\\sqrt{new\_accum} - \\sqrt{squared\_accum}}{learning\_rate * param}

        &else:

        &\quad   linear\_accum += grad - \\frac{new\_accum^{-lr\_power} - accum^{-lr\_power}}{learning\_rate * param}


        &x = l1 * sign(linear\_accum) - linear\_accum

        &if (lr\_power == -0.5):

        &\quad   y = \\frac{\\sqrt{new\_accum}}{learning\_rate} + (2 * l2)

        &\quad   pre\_shrink = \\frac{x}{y}

        &\quad   param = (abs(linear\_accum) > l1).select(pre\_shrink, 0.0)

        &else:

        &\quad   y = \\frac{new\_accum^{-lr\_power}}{learning\_rate} + (2 * l2)

        &\quad   pre\_shrink = \\frac{x}{y}

        &\quad   param = (abs(linear\_accum) > l1).select(pre\_shrink, 0.0)

        &squared\_accum += grad^2

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    Parameters:
        learning_rate (float|Variable): Global learning rate.
        l1 (float): L1 regularization strength, default is 0.0.
        l2 (float): L2 regularization strength, default is 0.0.
        lr_power (float): Learning Rate Power, default is -0.5.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        name (str, optional): This parameter is used by developers to print debugging information. \
            For details, please refer to :ref:`api_guide_Name`. Default is None.
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    Raises:
        ValueError: If learning_rate, rho, epsilon, momentum are None.

    Examples:
          .. code-block:: python

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            import paddle
            import paddle.fluid as fluid
            import numpy as np

            place = fluid.CPUPlace()
            main = fluid.Program()
            with fluid.program_guard(main):
                x = fluid.layers.data(name='x', shape=[13], dtype='float32')
                y = fluid.layers.data(name='y', shape=[1], dtype='float32')
                y_predict = fluid.layers.fc(input=x, size=1, act=None)
                cost = fluid.layers.square_error_cost(input=y_predict, label=y)
                avg_cost = fluid.layers.mean(cost)

                ftrl_optimizer = fluid.optimizer.Ftrl(learning_rate=0.1)
                ftrl_optimizer.minimize(avg_cost)

                fetch_list = [avg_cost]
                train_reader = paddle.batch(
                    paddle.dataset.uci_housing.train(), batch_size=1)
                feeder = fluid.DataFeeder(place=place, feed_list=[x, y])
                exe = fluid.Executor(place)
                exe.run(fluid.default_startup_program())
                for data in train_reader():
                    exe.run(main, feed=feeder.feed(data), fetch_list=fetch_list)
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    NOTE:
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       Currently, FtrlOptimizer doesn't support sparse parameter optimization.
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    """

    _squared_acc_str = "squared"
    _linear_acc_str = "linear"

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    def __init__(self,
                 learning_rate,
                 l1=0.0,
                 l2=0.0,
                 lr_power=-0.5,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 name=None):
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        super(FtrlOptimizer, self).__init__(
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            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            name=name)
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        if learning_rate is None:
            raise ValueError("learning_rate is not set.")

        self.type = "ftrl"
        self._l1 = l1
        self._l2 = l2
        self._lr_power = lr_power

    def _create_accumulators(self, block, parameters):
        if not isinstance(block, framework.Block):
            raise TypeError("block is not instance of framework.Block.")

        for p in parameters:
            self._add_accumulator(self._squared_acc_str, p)
            self._add_accumulator(self._linear_acc_str, p)

    def _append_optimize_op(self, block, param_and_grad):
        if not isinstance(block, framework.Block):
            raise TypeError("block is not instance of framework.Block.")

        squared_acc = self._get_accumulator(self._squared_acc_str,
                                            param_and_grad[0])
        linear_acc = self._get_accumulator(self._linear_acc_str,
                                           param_and_grad[0])
        ftrl_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "SquaredAccumulator": squared_acc,
                "LinearAccumulator": linear_acc,
                "LearningRate": self._create_param_lr(param_and_grad),
            },
            outputs={
                "ParamOut": param_and_grad[0],
                "SquaredAccumOut": squared_acc,
                "LinearAccumOut": linear_acc
            },
            attrs={"l1": self._l1,
                   "l2": self._l1,
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                   "lr_power": self._lr_power},
            stop_gradient=True)
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        return ftrl_op


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class LambOptimizer(AdamOptimizer):
    """
    LAMB (Layer-wise Adaptive Moments optimizer for Batching training) Optimizer.

    LAMB Optimizer is designed to scale up the batch size of training without losing 
    accuracy, which supports adaptive element-wise updating and accurate layer-wise 
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    correction. For more information, please refer to `Large Batch Optimization for 
    Deep Learning: Training BERT in 76 minutes <https://arxiv.org/abs/1904.00962>`_ .
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    The updating of parameters follows:

    ..  math::

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        m_t &= \\beta_1 m_{t - 1}+ (1 - \\beta_1)g_t 
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        v_t &= \\beta_2 v_{t - 1}  + (1 - \\beta_2)g_t^2
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        r_t &= \\frac{m_t}{\\sqrt{v_t}+\\epsilon}
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        w_t &= w_{t-1} -\\eta_t \\frac{\\left \| w_{t-1}\\right \|}{\\left \| r_t + \\lambda w_{t-1}\\right \|} (r_t + \\lambda w_{t-1})
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    where :math:`m` is the 1st moment, and :math:`v` the 2nd moment, :math:`\\eta` the 
    learning rate, :math:`\\lambda` the LAMB weight decay rate.

    Args:
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        learning_rate (float|Variable, optional): the learning rate used to update parameters. \
            Can be a float value or a Variable with data type float32. Default 0.001.
        lamb_weight_decay (float, optional): The LAMB weight decay rate. Default 0.01.
        beta1 (float, optional): The exponential decay rate for the 1st moment estimates.
            Default 0.9.
        beta2 (float, optional): The exponential decay rate for the 2nd moment estimates.
            Default 0.999.
        epsilon (float, optional): A small float value for numerical stability. Default 1e-6.
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        parameter_list (Iterable, optional):  Iterable of ``Variable`` names to update to minimize ``loss``. \
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            This parameter is required in dygraph mode. \
            The default value is None in static mode, at this time all parameters will be updated.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        grad_clip (GradientClipBase, optional): Gradient cliping strategy, it's an instance of 
            some derived class of ``GradientClipBase`` . There are three cliping strategies 
            ( :ref:`api_fluid_clip_GradientClipByGlobalNorm` , :ref:`api_fluid_clip_GradientClipByNorm` , 
            :ref:`api_fluid_clip_GradientClipByValue` ). Default None, meaning there is no gradient clipping.
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        exclude_from_weight_decay_fn (function|None): Exclude a parameter from weight 
            decay when **exclude_from_weight_decay_fn(parameter)** returns true. 
            Default None.
        name(str|None): For detailed information, please refer to 
            :ref:`api_guide_Name` . Usually name is no need to set and None by default.
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    Examples:
        .. code-block:: python
            
            import paddle.fluid as fluid 

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            data = fluid.data(name='x', shape=[-1, 5], dtype='float32')
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            hidden = fluid.layers.fc(input=data, size=10)
            cost = fluid.layers.mean(hidden)

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            def exclude_fn(param):
                return param.name.endswith('.b_0')

            optimizer = fluid.optimizer.Lamb(learning_rate=0.002,
                                             exclude_from_weight_decay_fn=exclude_fn)
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            optimizer.minimize(cost)
    """
    _moment1_acc_str = "moment1"
    _moment2_acc_str = "moment2"
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    # these two not used in op temporarily
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    _beta1_pow_acc_str = "beta1_pow_acc"
    _beta2_pow_acc_str = "beta2_pow_acc"

    def __init__(self,
                 learning_rate=0.001,
                 lamb_weight_decay=0.01,
                 beta1=0.9,
                 beta2=0.999,
                 epsilon=1e-6,
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                 parameter_list=None,
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                 regularization=None,
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                 grad_clip=None,
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                 exclude_from_weight_decay_fn=None,
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                 name=None):
        assert learning_rate is not None
        assert lamb_weight_decay is not None
        assert beta1 is not None
        assert beta2 is not None
        assert epsilon is not None
        super(LambOptimizer, self).__init__(
            learning_rate=learning_rate,
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            parameter_list=parameter_list,
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            regularization=regularization,
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            grad_clip=grad_clip,
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            beta1=beta1,
            beta2=beta2,
            epsilon=epsilon,
            name=name)
        self.type = "lamb"
        self._weight_decay = lamb_weight_decay
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        self._exclude_from_weight_decay_fn = exclude_from_weight_decay_fn
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    def _append_optimize_op(self, block, param_and_grad):
        assert isinstance(block, framework.Block)
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        block.program._use_lamb = True
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        moment1 = self._get_accumulator(self._moment1_acc_str,
                                        param_and_grad[0])
        moment2 = self._get_accumulator(self._moment2_acc_str,
                                        param_and_grad[0])
        beta1_pow_acc = self._get_accumulator(self._beta1_pow_acc_str,
                                              param_and_grad[0])
        beta2_pow_acc = self._get_accumulator(self._beta2_pow_acc_str,
                                              param_and_grad[0])

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        if self._exclude_from_weight_decay_fn is not None \
            and self._exclude_from_weight_decay_fn(param_and_grad[0]):
            weight_decay = 0.0
        else:
            weight_decay = self._weight_decay

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        # create the lamb optimize op
        lamb_op = block.append_op(
            type=self.type,
            inputs={
                "Param": param_and_grad[0],
                "Grad": param_and_grad[1],
                "LearningRate": self._create_param_lr(param_and_grad),
                "Moment1": moment1,
                "Moment2": moment2,
                "Beta1Pow": beta1_pow_acc,
                "Beta2Pow": beta2_pow_acc
            },
            outputs={
                "ParamOut": param_and_grad[0],
                "Moment1Out": moment1,
                "Moment2Out": moment2
            },
            attrs={
                "beta1": self._beta1,
                "beta2": self._beta2,
                "epsilon": self._epsilon,
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                "weight_decay": weight_decay
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            },
            stop_gradient=True)

        return lamb_op


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# We short the class name, since users will use the optimizer with the package
# name. The sample code:
#
# import paddle.fluid as fluid
#
# sgd = fluid.optimizer.SGD(...)
#
# It is no need to add an `Optimizer` as the class suffix
SGD = SGDOptimizer
Momentum = MomentumOptimizer
Adagrad = AdagradOptimizer
Adam = AdamOptimizer
Adamax = AdamaxOptimizer
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Dpsgd = DpsgdOptimizer
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DecayedAdagrad = DecayedAdagradOptimizer
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Adadelta = AdadeltaOptimizer
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RMSProp = RMSPropOptimizer
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Ftrl = FtrlOptimizer
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LarsMomentum = LarsMomentumOptimizer
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Lamb = LambOptimizer
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class ModelAverage(Optimizer):
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    """
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	:api_attr: Static Graph
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    The ModelAverage optimizer accumulates specific continuous historical parameters
    during training. The accumulated historical range can be controlled by the passed
    ``average_window_rate`` argument. The averaged ``Parameter`` are used in the prediction,
    which usually can improve the accuracy of the prediction.

    Accumulate the average of the ``Parameter`` in the sliding window, the result will be saved
    in a temporary variable, can be applied to the current model's ``Parameter`` by calling
    the ``apply()`` method, and the current model ``Parameter`` can be restored by calling
    the ``restore()`` method.

    The window size for calculating the average is determined by ``average_window_rate``,
    ``min_average_window``, ``max_average_window`` and the current ``Parameter`` update times (num_updates).

    When the cumulative times (num_accumulates) is greater than the specific window
    threshold (average_window), the accumulated ``Parameter`` temporary variable is set to 0.0.
    The following example will help to understand the role of these arguments:

    ::
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        if num_accumulates >= min_average_window and num_accumulates >= min(max_average_window, num_updates * average_window_rate):
            num_accumulates = 0

    In the above conditional judgment statement, ``num_accumulates`` indicates the current
    accumulated number, which can be abstractly understood as the length of the cumulative window.
    The length of the window must be at least the length set by the ``min_average_window`` argument,
    and cannot exceed the length specified by the ``max_average_window`` argument or
    ``num_updates * average_window_rate``, where ``num_updates`` indicates the current ``Parameter``
    update times, ``average_window_rate`` is a coefficient that calculates the length of the window.
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    Args:
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        average_window_rate (float): The calculate ratio of the window length relative to ``Parameter`` update times.
        min_average_window (int, optional): the minimum size of average window length. The default value is 10000.
        max_average_window (int, optional): The maximum size of average window length. The default value is 10000.
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        regularization (WeightDecayRegularizer, optional): The strategy of regularization. There are two method: \
             :ref:`api_fluid_regularizer_L1Decay` , :ref:`api_fluid_regularizer_L2Decay` . If a parameter has set \
            regularizer using :ref:`api_fluid_ParamAttr` already, the regularization setting here in optimizer will be \
            ignored for this parameter. Otherwise, the regularization setting here in optimizer will take effect.  \
            Default None, meaning there is no regularization.
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        name (str, optional): Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name`.
            The default value is None.
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    Examples:
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      .. code-block:: python

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        import paddle.fluid as fluid
        import numpy

        # First create the Executor.
        place = fluid.CPUPlace()  # fluid.CUDAPlace(0)
        exe = fluid.Executor(place)
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        train_program = fluid.Program()
        startup_program = fluid.Program()
        with fluid.program_guard(train_program, startup_program):
            # build net
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            data = fluid.data(name='X', shape=[None, 1], dtype='float32')
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            hidden = fluid.layers.fc(input=data, size=10)
            loss = fluid.layers.mean(hidden)
            optimizer = fluid.optimizer.Momentum(learning_rate=0.2, momentum=0.1)
            optimizer.minimize(loss)

            # build ModelAverage optimizer
            model_average = fluid.optimizer.ModelAverage(0.15,
                                                         min_average_window=10000,
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                                                         max_average_window=12500)
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            exe.run(startup_program)
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            for i in range(12500):
                x = numpy.random.random(size=(10, 1)).astype('float32')
                outs = exe.run(program=train_program,
                               feed={'X': x},
                               fetch_list=[loss.name])
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            # apply ModelAverage
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            with model_average.apply(exe):
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                x = numpy.random.random(size=(10, 1)).astype('float32')
                exe.run(program=train_program,
                        feed={'X': x},
                        fetch_list=[loss.name])
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    """

    def __init__(self,
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                 average_window_rate,
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                 min_average_window=10000,
                 max_average_window=10000,
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                 regularization=None,
                 name=None):
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        if framework.in_dygraph_mode():
            raise Exception("In dygraph, don't support ModelAverage.")
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        super(ModelAverage, self).__init__(
            0.0, regularization=regularization, name=name)
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        self.average_window = average_window_rate
        self.min_average_window = min_average_window
        self.max_average_window = max_average_window
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        self.params_grads = []
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        for param in framework.default_main_program().global_block(
        ).all_parameters():
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            if param.do_model_average != False:
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                grad = param.block.create_var(
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                    name=unique_name.generate_with_ignorable_key(".".join(
                        [param.name, 'tmp'])),
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                    dtype=param.dtype,
                    persistable=False,
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                    stop_gradient=True)
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                self.params_grads.append((param, grad))
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        for param, grad in self.params_grads:
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            if grad is None:
                continue
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            with param.block.program._optimized_guard(
                [param, grad]), name_scope('move_average'):
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                self._append_average_accumulate_op(param)
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        self.apply_program = Program()
        block = self.apply_program.global_block()
        with program_guard(main_program=self.apply_program):
            for param_grad in self.params_grads:
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                self._add_average_apply_op(block, param_grad)
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        self.restore_program = Program()
        block = self.restore_program.global_block()
        with program_guard(main_program=self.restore_program):
            for param_grad in self.params_grads:
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                self._add_average_restore_op(block, param_grad)
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    def _add_average_apply_op(self, block, param_grad):
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        param = block._clone_variable(param_grad[0])
        grad = block._clone_variable(param_grad[1])
        sum_1 = block._clone_variable(self._get_accumulator('sum_1', param))
        sum_2 = block._clone_variable(self._get_accumulator('sum_2', param))
        sum_3 = block._clone_variable(self._get_accumulator('sum_3', param))
        num_accumulates = block._clone_variable(
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            self._get_accumulator('num_accumulates', param))
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        old_num_accumulates = block._clone_variable(
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            self._get_accumulator('old_num_accumulates', param))
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        num_updates = block._clone_variable(
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            self._get_accumulator('num_updates', param))
        # backup param value to grad
        layers.assign(input=param, output=grad)
        # param = (sum_1 + sum_2 + sum_3) / (num_accumulates + old_num_accumulates)
        tmp = layers.sum(x=[num_accumulates, old_num_accumulates])
        sum = layers.sum(x=[sum_1, sum_2, sum_3])
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        tmp = layers.cast(
            x=tmp, dtype='float32' if self._dtype == None else self._dtype)
        sum = layers.cast(
            x=sum, dtype='float32' if self._dtype == None else self._dtype)
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        ops._elementwise_div(x=sum, y=tmp, out=param)
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    def _add_average_restore_op(self, block, param_grad):
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        param = block._clone_variable(param_grad[0])
        grad = block._clone_variable(param_grad[1])
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        layers.assign(input=grad, output=param)

    def _append_average_accumulate_op(self, param):
        self.helper = LayerHelper("average_accumulate")
        sum_1 = self._add_accumulator('sum_1', param)
        sum_2 = self._add_accumulator('sum_2', param)
        sum_3 = self._add_accumulator('sum_3', param)
        num_accumulates = self._add_accumulator(
            'num_accumulates', param, dtype='int64', shape=[1])
        old_num_accumulates = self._add_accumulator(
            'old_num_accumulates', param, dtype='int64', shape=[1])
        num_updates = self._add_accumulator(
            'num_updates', param, dtype='int64', shape=[1])

        self.helper.append_op(
            type='average_accumulates',
            inputs={
                "param": param,
                "in_sum_1": sum_1,
                "in_sum_2": sum_2,
                "in_sum_3": sum_3,
                "in_num_accumulates": num_accumulates,
                "in_old_num_accumulates": old_num_accumulates,
                "in_num_updates": num_updates
            },
            outputs={
                "out_sum_1": sum_1,
                "out_sum_2": sum_2,
                "out_sum_3": sum_3,
                "out_num_accumulates": num_accumulates,
                "out_old_num_accumulates": old_num_accumulates,
                "out_num_updates": num_updates,
            },
            attrs={
                "average_window": self.average_window,
                "min_average_window": self.min_average_window,
                "max_average_window": self.max_average_window,
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            },
            stop_gradient=True)
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    @signature_safe_contextmanager
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    def apply(self, executor, need_restore=True):
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        """
        Apply the average of the cumulative ``Parameter`` to the parameters of the current model.
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        Args:
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            executor(fluid.Executor): The current network executor.
            need_restore(bool): Restore flag variable, if set to True, the network will restore
                the parameters of the network to the default value, if set to False,
                it will not be restored. The default value is True.

        Examples:

          .. code-block:: python

            import paddle.fluid as fluid
            import numpy

            # First create the Executor.
            place = fluid.CPUPlace()  # fluid.CUDAPlace(0)
            exe = fluid.Executor(place)

            train_program = fluid.Program()
            startup_program = fluid.Program()
            with fluid.program_guard(train_program, startup_program):
                # build net
                data = fluid.data(name='X', shape=[None, 1], dtype='float32')
                hidden = fluid.layers.fc(input=data, size=10)
                loss = fluid.layers.mean(hidden)
                optimizer = fluid.optimizer.Momentum(learning_rate=0.2, momentum=0.1)
                optimizer.minimize(loss)

                # build ModelAverage optimizer
                model_average = fluid.optimizer.ModelAverage(0.15,
                                                            min_average_window=10000,
                                                            max_average_window=12500)

                exe.run(startup_program)
                for i in range(12500):
                    x = numpy.random.random(size=(10, 1)).astype('float32')
                    outs = exe.run(program=train_program,
                                feed={'X': x},
                                fetch_list=[loss.name])

                # apply ModelAverage
                with model_average.apply(exe):
                    x = numpy.random.random(size=(10, 1)).astype('float32')
                    exe.run(program=train_program,
                            feed={'X': x},
                            fetch_list=[loss.name])
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        """
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        executor.run(self.apply_program)
        try:
            yield
        finally:
            if need_restore:
                self.restore(executor)
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    def restore(self, executor):
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        """
        Restore ``Parameter`` values of current model.
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        Args:
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            executor(fluid.Executor): The current network executor.

        Examples:

          .. code-block:: python

            import paddle.fluid as fluid
            import numpy

            # First create the Executor.
            place = fluid.CPUPlace()  # fluid.CUDAPlace(0)
            exe = fluid.Executor(place)

            train_program = fluid.Program()
            startup_program = fluid.Program()
            with fluid.program_guard(train_program, startup_program):
                # build net
                data = fluid.data(name='X', shape=[None, 1], dtype='float32')
                hidden = fluid.layers.fc(input=data, size=10)
                loss = fluid.layers.mean(hidden)
                optimizer = fluid.optimizer.Momentum(learning_rate=0.2, momentum=0.1)
                optimizer.minimize(loss)

                # build ModelAverage optimizer
                model_average = fluid.optimizer.ModelAverage(0.15,
                                                            min_average_window=10000,
                                                            max_average_window=12500)

                exe.run(startup_program)
                for i in range(12500):
                    x = numpy.random.random(size=(10, 1)).astype('float32')
                    outs = exe.run(program=train_program,
                                feed={'X': x},
                                fetch_list=[loss.name])

                # apply ModelAverage
                with model_average.apply(exe, False):
                    x = numpy.random.random(size=(10, 1)).astype('float32')
                    exe.run(program=train_program,
                            feed={'X': x},
                            fetch_list=[loss.name])

                # restore Parameters
                model_average.restore(exe)
3380
        """
3381
        executor.run(self.restore_program)
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class ExponentialMovingAverage(object):
    """
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	:api_attr: Static Graph
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    Compute the moving average of parameters with exponential decay.
    Given a parameter :math:`\\theta`, its exponential moving average (EMA)
    will be

    ..  math::

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        \\text{EMA}_0 & = 0
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	\\text{EMA}_t & = \\text{decay} * \\text{EMA}_{t-1} + (1 - \\text{decay}) * \\theta_t

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    The average results calculated by **update()** method will be saved in 
    temporary variables which are created and maintained by the object, and can 
    be applied to parameters of current model by calling **apply()** method. And 
    the **restore()** method is used to restore the parameters.
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    **Bias correction**. All EMAs are initialized to :math:`0` and hence they will be 
    zero biased, which can be corrected by divided by a factor 
    :math:`(1 - \\text{decay}^t)` , i.e., the actual EMAs applied to parameters 
    when calling **apply()** method would be 

    ..  math::
    
        \\widehat{\\text{EMA}}_t = \\frac{\\text{EMA}_t}{1 - \\text{decay}^t}

    **Decay rate scheduling**. A large decay rate very close to 1 would result 
    in that the averages move very slowly. And a better strategy is to set a 
    relative smaller decay rate in the very beginning. The argument **thres_steps**
    allows users to pass a Variable to schedule the decay rate, in this case, 
    the actual decay rate becomes
     
    ..  math::
    
        \\min(\\text{decay}, \\frac{1 + \\text{thres_steps}}{10 + \\text{thres_steps}})

    Usually **thres_steps** can be the global training steps.
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    Args:
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	decay (float, optional): The exponential decay rate, usually close to 1, such as 
            0.999, 0.9999, ... . Default 0.999.
        thres_steps (Variable|None): If not `None`, schedule the decay rate. 
            Default None.
        name (str|None): For detailed information, please refer to 
            :ref:`api_guide_Name`. Usually name is no need to set and None by 
            default.
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    Examples:

	.. code-block:: python
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	    import numpy
	    import paddle
	    import paddle.fluid as fluid

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	    data = fluid.data(name='x', shape=[-1, 5], dtype='float32')
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	    hidden = fluid.layers.fc(input=data, size=10)
	    cost = fluid.layers.mean(hidden)

	    test_program = fluid.default_main_program().clone(for_test=True)

	    optimizer = fluid.optimizer.Adam(learning_rate=0.001)
	    optimizer.minimize(cost)

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	    global_steps = fluid.layers.autoincreased_step_counter()
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	    ema = fluid.optimizer.ExponentialMovingAverage(0.999, thres_steps=global_steps)
	    ema.update()

	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())

	    for pass_id in range(3):
		for batch_id in range(6):
		    data = numpy.random.random(size=(10, 5)).astype('float32')
		    exe.run(program=fluid.default_main_program(),
			feed={'x': data}, 
			fetch_list=[cost.name])

		# usage 1
		with ema.apply(exe):
		    data = numpy.random.random(size=(10, 5)).astype('float32')
		    exe.run(program=test_program,
			    feed={'x': data}, 
			    fetch_list=[hidden.name])
			    

		 # usage 2
		with ema.apply(exe, need_restore=False):
		    data = numpy.random.random(size=(10, 5)).astype('float32')
		    exe.run(program=test_program,
			    feed={'x': data}, 
			    fetch_list=[hidden.name])
		ema.restore(exe)
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    """

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    def __init__(self, decay=0.999, thres_steps=None, name=None):
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        if framework.in_dygraph_mode():
            raise Exception(
                "In dygraph, don't support ExponentialMovingAverage.")
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        self._decay = decay
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        self._thres_steps = thres_steps
3490
        self._name = name if name is not None else ''
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        self._decay_var = self._get_ema_decay()

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        self._step_counter_name = "@EMA_STEP_COUNTER@"
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        self._params_tmps = []
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        for param in default_main_program().global_block().all_parameters():
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            if param.do_model_average != False:
                tmp = param.block.create_var(
                    name=unique_name.generate(".".join(
                        [self._name + param.name, 'ema_tmp'])),
                    dtype=param.dtype,
                    persistable=False,
                    stop_gradient=True)
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                self._params_tmps.append((param, tmp))
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        self._ema_vars = {}
        for param, tmp in self._params_tmps:
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            with param.block.program._optimized_guard(
                [param, tmp]), name_scope('moving_average'):
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                self._ema_vars[param.name] = self._create_ema_vars(param)
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        self.apply_program = Program()
        block = self.apply_program.global_block()
        with program_guard(main_program=self.apply_program):
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            decay_pow, global_step = self._get_decay_pow(block)
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            for param, tmp in self._params_tmps:
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                param = block._clone_variable(param)
                tmp = block._clone_variable(tmp)
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                ema = block._clone_variable(self._ema_vars[param.name])
3519
                layers.assign(input=param, output=tmp)
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                # bias correction
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                with layers.control_flow.Switch() as switch:
                    with switch.case(global_step > 0):
                        layers.assign(output=ema, input=ema / (1.0 - decay_pow))
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                layers.assign(input=ema, output=param)

        self.restore_program = Program()
        block = self.restore_program.global_block()
        with program_guard(main_program=self.restore_program):
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            for param, tmp in self._params_tmps:
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                tmp = block._clone_variable(tmp)
                param = block._clone_variable(param)
                layers.assign(input=tmp, output=param)

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    def _get_ema_decay(self):
        with default_main_program()._lr_schedule_guard():
            decay_var = layers.tensor.create_global_var(
                shape=[1],
                value=self._decay,
                dtype='float32',
                persistable=True,
                name="scheduled_ema_decay_rate")

            if self._thres_steps is not None:
                decay_t = (self._thres_steps + 1.0) / (self._thres_steps + 10.0)
                with layers.control_flow.Switch() as switch:
                    with switch.case(decay_t < self._decay):
                        layers.tensor.assign(decay_t, decay_var)
                    with switch.default():
                        layers.tensor.assign(
                            np.array(
                                [self._decay], dtype=np.float32),
                            decay_var)
        return decay_var

    def _get_decay_pow(self, block):
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        global_step = layers.create_global_var(
            name=self._step_counter_name,
            shape=[1],
            value=0,
            dtype='int64',
            persistable=True)
        global_step = layers.cast(global_step, "float32")
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        decay_var = block._clone_variable(self._decay_var)
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        decay_pow_acc = layers.elementwise_pow(decay_var, global_step)
        return decay_pow_acc, global_step
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    def _create_ema_vars(self, param):
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        param_ema = layers.create_global_var(
            name=unique_name.generate(self._name + param.name + '_ema'),
            shape=param.shape,
            value=0.0,
            dtype=param.dtype,
            persistable=True)

        return param_ema

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    def update(self):
        """ 
        Update Exponential Moving Average. Should only call this method in 
        train program.
        """
3582 3583
        global_step = layers.autoincreased_step_counter(
            counter_name=self._step_counter_name)
3584
        param_master_emas = []
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        for param, tmp in self._params_tmps:
            with param.block.program._optimized_guard(
                [param, tmp]), name_scope('moving_average'):
                param_ema = self._ema_vars[param.name]
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                if param.name + '.master' in self._ema_vars:
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                    master_ema = self._ema_vars[param.name + '.master']
                    param_master_emas.append([param_ema, master_ema])
                else:
                    ema_t = param_ema * self._decay_var + param * (
                        1 - self._decay_var)
                    layers.assign(input=ema_t, output=param_ema)

        # for fp16 params
        for param_ema, master_ema in param_master_emas:
            default_main_program().global_block().append_op(
                type="cast",
                inputs={"X": master_ema},
                outputs={"Out": param_ema},
                attrs={
                    "in_dtype": master_ema.dtype,
                    "out_dtype": param_ema.dtype
                })
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    @signature_safe_contextmanager
    def apply(self, executor, need_restore=True):
        """
        Apply moving average to parameters for evaluation.
        
        Args:
            executor (Executor): The Executor to execute applying.
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            need_restore (bool, optional): Whether to restore parameters after 
                applying. Default True.
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        """
        executor.run(self.apply_program)
        try:
            yield
        finally:
            if need_restore:
                self.restore(executor)

    def restore(self, executor):
        """Restore parameters.
        
        Args:
            executor (Executor): The Executor to execute restoring.
        """
        executor.run(self.restore_program)
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class PipelineOptimizer(object):
3635
    """
3636
	:api_attr: Static Graph
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    Pipeline Optimizer: Make a program to run as pipeline, that is splitting a
    program into multiple sections (sub-programs) and each section run on a
    device to enable the training of large scale models and the use of
    heterogeneous devices. Meanwhile, all sections run in the stype of pipeline.
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    Args:
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        optimizer (Optimizer): The optimizer to use, such as SGD.
        num_microbatches (int): Number of microbatches. [Optional. Default:1].
        start_cpu_core_id (int): The first cpu core id to use. [Optional. Default:0].
    
3648 3649
    Examples:
        .. code-block:: python
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3651
            import paddle.fluid as fluid
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            import paddle.fluid.layers as layers

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            with fluid.device_guard("gpu:0"):
                x = fluid.layers.data(name='x', shape=[1], dtype='int64', lod_level=0)
                y = fluid.layers.data(name='y', shape=[1], dtype='int64', lod_level=0)
                data_loader = fluid.io.DataLoader.from_generator(
                    feed_list=[x, y],
                    capacity=64,
                    use_double_buffer=True,
                    iterable=False)

                emb_x = layers.embedding(input=x, param_attr=fluid.ParamAttr(name="embx"), size=[10,2], is_sparse=False)
                emb_y = layers.embedding(input=y, param_attr=fluid.ParamAttr(name="emby",learning_rate=0.9), size=[10,2], is_sparse=False)

            with fluid.device_guard("gpu:1"):
                concat = layers.concat([emb_x, emb_y], axis=1)
                fc = layers.fc(input=concat, name="fc", size=1, num_flatten_dims=1, bias_attr=False)
                loss = layers.reduce_mean(fc)
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            optimizer = fluid.optimizer.SGD(learning_rate=0.5)
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            optimizer = fluid.optimizer.PipelineOptimizer(optimizer)
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            optimizer.minimize(loss)
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            def train_reader():
                for _ in range(4):
                    x = np.random.random(size=[1]).astype('int64')
                    y = np.random.random(size=[1]).astype('int64')
                    yield x, y
            data_loader.set_sample_generator(train_reader, batch_size=1)

            place = fluid.CUDAPlace(0)
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            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
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            batch_size = 1
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            filelist = [] # you should set your own filelist, e.g. filelist = ["dataA.txt"]
            dataset = fluid.DatasetFactory().create_dataset("FileInstantDataset")
            dataset.set_use_var([x,y])
            dataset.set_batch_size(batch_size)
            dataset.set_filelist(filelist)
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            data_loader.start()
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            exe.train_from_dataset(
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                    fluid.default_main_program(),
                    dataset)
            data_loader.reset()
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    """

3697
    def __init__(self, optimizer, num_microbatches=1, start_cpu_core_id=0):
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        if framework.in_dygraph_mode():
            raise Exception("In dygraph, don't support PipelineOptimizer.")
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        if not isinstance(optimizer, Optimizer):
            raise ValueError("The 'optimizer' parameter for "
                             "PipelineOptimizer must be an instance of "
                             "Optimizer, but the given type is {}.".format(
                                 type(optimizer)))
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        self._optimizer = optimizer
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        assert num_microbatches >= 1, (
            "num_microbatches must be a positive value.")
        self._num_microbatches = num_microbatches
        assert start_cpu_core_id >= 0, (
            "start_cpu_core_id must be greater than or equal to 0.")
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        self._start_cpu_core_id = start_cpu_core_id
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        self._place_list = None
        op_maker = core.op_proto_and_checker_maker
        self._op_role = op_maker.OpRole
        self._op_role_key = op_maker.kOpRoleAttrName()
        self._op_role_var_key = op_maker.kOpRoleVarAttrName()
        self._op_device_key = op_maker.kOpDeviceAttrName()
        self._param_device_map = dict()
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    def _create_vars(self, block, main_program):
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        # Create vars for block, copied from main_program's global block
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        used_var_set = set()
        for op_idx in range(block.desc.op_size()):
            op_desc = block.desc.op(op_idx)
            vars = op_desc.input_arg_names() + op_desc.output_arg_names()
            for var in vars:
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                # a var whose name contains "blocking_queue" 
                # only exists in startup program 
                if var in used_var_set or "_blocking_queue" in var:
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                    continue
                used_var_set.add(var)
                source_var = main_program.block(0).var(str(var))
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                if source_var.type == core.VarDesc.VarType.READER:
                    block.create_var(name=var, type=core.VarDesc.VarType.READER)
                else:
                    block._clone_variable(source_var, False)
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    def _is_loss_grad_op(self, op):
        if self._op_role_key not in op.attr_names:
            return False
        op_role = int(op.all_attrs()[self._op_role_key])
        return op_role & int(self._op_role.Backward) and op_role & int(
            self._op_role.Loss)

    def _is_backward_op(self, op):
        return self._op_role_key in op.attr_names and int(op.all_attrs()[
            self._op_role_key]) & int(self._op_role.Backward)

    def _is_optimize_op(self, op):
        return self._op_role_key in op.attr_names and int(op.all_attrs()[
            self._op_role_key]) & int(self._op_role.Optimize)

    def _is_update_op(self, op):
        return 'Param' in op.input_names and 'Grad' in op.input_names and (
            "LearningRate" in op.input_names)

    def _split_program(self, main_program):
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        """
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        Split a program into sections according to devices that ops run on.

        Args:
            main_program (Program): the main program
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        """
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        programs = []
        # Map from device to its corresponding section program info
        device_program_map = dict()
        block = main_program.block(0)

        for op in block.ops:
            device = op.attr(self._op_device_key)

            if device not in device_program_map:
                program = {"program": Program()}
                device_program_map[device] = program
            program = device_program_map[device]
            op_desc = op.desc
            ap_op = program["program"].block(0).desc.append_op()
            ap_op.copy_from(op_desc)

        for key in sorted(device_program_map.keys()):
            program = device_program_map[key]
            program['program']._sync_with_cpp()
            programs.append(program)
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        return programs
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    def _find_post_op(self, ops, cur_op, var_name):
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        """
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        Find the real post op that has variable named var_name as input.

        Args:
            ops (list): A list of ops.
            cur_op (Operator): Current operator which has variable named
                               var_name as output.
            var_name (string): Variable name.
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        """
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        post_op = []
        before = True
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        for op in ops:
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            if op == cur_op:
                before = False
                continue
            if before:
                continue
            for in_var_name in op.input_arg_names:
                if in_var_name == var_name:
                    post_op.append(op)
        if post_op:
            if not len(post_op) == 1:
                raise ValueError("Each op can only have one post op.")
            return post_op[0]
        return None

    def _find_real_prev_op(self, ops, cur_op, var_name):
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        """
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        Find the real previous op that outputs variable named var_name.

        Args:
            ops (list): A list of ops.
            cur_op (Operator): Current operator which has variable named
                               var_name as input.
            var_name (string): Variable name.
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        """
3824
        prev_op = []
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        for op in ops:
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            if op == cur_op:
                break
            for out_var_name in op.output_arg_names:
                if out_var_name == var_name:
                    prev_op.append(op)
        if prev_op:
            # A op may have more than one prev op,
            # e.g., for 'learning_rate', there may be multiple ops have it as
            # output.
            return prev_op[-1]
        return None

    def _rename_arg(self, op, old_name, new_name):
        op_desc = op.desc
        if isinstance(op_desc, tuple):
            op_desc = op_desc[0]
        op_desc._rename_input(old_name, new_name)
        op_desc._rename_output(old_name, new_name)

    def _create_var(self, block, ref_var, name):
        """
        Create a new var for block, which has the same type,
        shape and dtype as ref_var, then rename it with the
        name `name`.
        """
        new_var = block.create_var(
            name=name,
            shape=ref_var.shape,
            dtype=ref_var.dtype,
            type=ref_var.type,
            lod_level=ref_var.lod_level,
            persistable=False,
            is_data=False,
            need_check_feed=ref_var.desc.need_check_feed())
        return new_var

    def _get_data_var_info(self, block):
        """
        Get all vars whose is_data attribute are true and then rename them.
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        For PipelineTrainer, all data vars are binded to
        minibatch scope, so we have to feed them to the microbatch
        to avoid conflicts. The vars feeded to microbatch have to
        be renamed.
        """
        # A map from var name to the renamed name.
        raw_name_new_name_map = dict()
        # Because we will create vars in block, it is more safe
        # to get all var_names before iteration.
        var_names = list(block.vars.keys())
        for var_name in var_names:
            var = block.var(var_name)
            if not var.is_data:
                continue
            assert var_name not in raw_name_new_name_map, (
                "{} has already been processed.".format(var_name))
            new_name = unique_name.generate(var_name)
            raw_name_new_name_map[var_name] = new_name
            new_var = self._create_var(block, var, new_name)
            new_var.is_data = False

        # map of data to devices that that data on
        data_devices_map = dict()
        for op in block.ops:
            dev_spec = op.attr(self._op_device_key)
            for var_name in op.input_arg_names:
                if var_name not in raw_name_new_name_map:
                    continue
                if not var_name in data_devices_map:
                    data_devices_map[var_name] = []
                if not dev_spec in data_devices_map[var_name]:
                    data_devices_map[var_name].append(dev_spec)
                new_name = raw_name_new_name_map[var_name]
                #self._rename_arg(op, var_name, new_name)
        return data_devices_map, raw_name_new_name_map

    def _rename_var_in_block(self, block, raw_name_new_name_map):
        """
        Rename vars whose names in raw_name_new_name_map to the corresponding
        new names.
        """
        for op in block.ops:
            if op.type == "enqueue" or op.type == "dequeue":
                continue
            for var_name in op.input_arg_names:
                if var_name in raw_name_new_name_map:
                    new_name = raw_name_new_name_map[var_name]
                    self._rename_arg(op, var_name, new_name)
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    def _insert_enq_deq_for_data_var(self, main_block, programs, startup,
                                     devices):
        """
        Insert enqueue and dequeue ops for data var

        Args:
            main_block (Block): Global block for main program
            programs (dict): Dictionary for section params
            startup (Program): Startup program
            devices (list): List of devices in the format (dev:dev_index)
        """
        main_program = main_block.program
        data_devices_map, raw_name_new_name_map = self._get_data_var_info(
            main_block)

        first_prog = programs[0]['program']
        first_block = first_prog.block(0)
        enqueue_index = 0
        if first_block.ops[0].type == "create_py_reader" or (
                first_block.ops[1].type == "create_py_reader"):
            for op in first_block.ops:
                if op.type == "read":
                    enqueue_index += 1
                    break
                enqueue_index += 1
        first_dev_spec = devices[0]
        for var_name in data_devices_map.keys():
            for device in data_devices_map[var_name]:
                # step1: generate queue for each pair of data var and device
                # that that data on
                queue_name = var_name + "_blocking_queue"
                queue_name = unique_name.generate(queue_name)
                queue_var = startup.block(0).create_var(
                    name=queue_name,
                    persistable=True,
                    type=core.VarDesc.VarType.RAW)
                startup.block(0).append_op(
                    type='queue_generator',
                    attrs={
                        'names': [queue_name],
                        'capacity': self._num_microbatches
                    })
                main_var = main_block.var(var_name)
                assert main_var.is_data
                if not var_name in first_block.vars:
                    self._create_var(first_block, main_var, var_name)
                first_block._insert_op(
                    index=enqueue_index,
                    type='enqueue',
                    inputs={'X': first_block.var(var_name)},
                    attrs={
                        'queue_name': queue_name,
                        self._op_device_key: first_dev_spec,
                        self._op_role_key: self._op_role.Forward
                    })
                # Get the device that that data on
                assert device in devices
                prog_index = devices.index(device)
                prog = programs[prog_index]['program']
                block = prog.block(0)
                index = 0
                if device == first_dev_spec:
                    index = enqueue_index + 1
                new_name = raw_name_new_name_map[var_name]
                source_var = main_program.block(0).var(var_name)
                new_var = self._create_var(block, source_var, new_name)
                block._insert_op(
                    index=index,
                    type='dequeue',
                    outputs={'Out': [new_var]},
                    attrs={
                        self._op_device_key: device,
                        self._op_role_key: self._op_role.Forward,
                        'queue_name': queue_name,
                    })
                self._rename_var_in_block(block, raw_name_new_name_map)

    def _strip_grad_suffix(self, name):
        """
        Strip the grad suffix from the given variable name
        """
        pos = name.find(core.grad_var_suffix())
        return name[:pos] if pos != -1 else name
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    def _append_grad_suffix(self, name):
        """
        Append grad suffix to the given variable name
        """
        return name + core.grad_var_suffix()

    def _update_param_device_map(self, params_grads, block):
        for param_grad in params_grads:
            if not param_grad[0].trainable: continue
            param_name = param_grad[0].name
            ops = block.ops
            for op in ops:
                input_arg_names = op.input_arg_names
                if param_name in input_arg_names:
                    self._param_device_map[param_name] = op.attr(
                        self._op_device_key)
                    break

    def _add_opdevice_attr_for_regularization_clip(self, block):
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        """
4019
        Add op_device attribute for regulization and clip ops.
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        """
4021 4022 4023
        for op in block.ops:
            # role for regularization and clip ops is optimize
            if int(op.attr(self._op_role_key)) != int(self._op_role.Optimize):
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                continue
4025 4026 4027 4028 4029 4030 4031 4032 4033
            if op.has_attr(self._op_device_key) and (
                    op.attr(self._op_device_key) != ""):
                continue
            assert self._op_role_var_key in op.attr_names
            op_role_var = op.all_attrs()[self._op_role_var_key]
            assert len(op_role_var) == 2
            param_name = block.vars[op_role_var[0]].name
            device = self._param_device_map[param_name]
            op._set_attr(self._op_device_key, device)
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    def _add_default_opdevice_attr(self, block):
        """
        1. Add default op_device attribute for lr-related ops.
           The default value is the one that of the first place.
        2. Add default op_device attribute for sum ops added during
           backward. For these ops, we set the op_device attribute
           as the one of its post op, i.e, which op has the output of the
           sum op as an input.
        """
        first_devcie = ""

        # Get the device spec of the first place.
        # device_spec: 'cpu' for cpu device and 'gpu:id' for gpu device,
        # e.g. 'gpu:0', 'gpu:1', etc.
        for op in block.ops:
            if op.has_attr(self._op_device_key) and (
                    op.attr(self._op_device_key) != ""):
                first_device = op.attr(self._op_device_key)
                break
        assert first_device

        # set op_device attr for lr-related ops
        lrsched_role = int(self._op_role.LRSched)
        for op in block.ops:
            if not op.has_attr(self._op_device_key) or (
                    op.attr(self._op_device_key) == ""):
                if op.type == "sum":
                    # For sum ops that compute the sum of @RENAMED@ vars
                    for name in op.desc.input_arg_names():
                        assert '@RENAME@' in name
                    assert len(op.desc.output_arg_names()) == 1
                    out_name = op.desc.output_arg_names()[0]
                    post_op = self._find_post_op(block.ops, op, out_name)
                    device = post_op.attr(self._op_device_key)
                    assert device
                    op._set_attr(self._op_device_key, device)
                    continue
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                assert op.attr(self._op_role_key) == lrsched_role, (
                    "Op whose op_device attr has not been set for pipeline"
                    " must be of the role LRSched.")
                op._set_attr(self._op_device_key, first_device)
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    def _check_validation(self, block):
        """
        Check whether ops in a block are all validate (i.e., the 
        op_device attribute has been set).
        Then, return all device specifications in order.
        """
        device_specs = []
        for op in block.ops:
            type = op.type
            if not op._has_kernel(type):
                assert op.type == "conditional_block" and (
                    op.attr(self._op_role_key) == int(self._op_role.LRSched)), (
                        "Now, the only supported op without kernel is "
                        "conditional_block, and its op role must be LRSched.")
            assert op.has_attr(self._op_device_key), (
                "op ({}) has no {} attribute.".format(op.type,
                                                      self._op_device_key))
            dev_spec = op.attr(self._op_device_key)
            assert dev_spec, ("op_device attribute for op "
                              "{} has not been set.".format(op.type))
            if not dev_spec in device_specs:
                device_specs.append(dev_spec)
        return device_specs

    def _insert_enq_deq_ops_for_boundaries(self, block, origin_block,
                                           startup_program):
        """
        Insert a pair of enqueue and dequeue ops for every two
        consecutive ops on different devices.
        """
        startup_block = startup_program.global_block()
        extra_index = 0

        # A map from var to device spec where op takes it as input,
        # avoiding multiple enqueue and dequeue ops.
        var_devspec = dict()

        for index, op in list(enumerate(origin_block.ops)):
            cur_device_spec = op.attr(self._op_device_key)
            for var_name in op.input_arg_names:
                # i.e., lod_tensor_blocking_queue created by DataLoader,
                # which only exists in startup program.
                if not var_name in origin_block.vars: continue
                var = block.var(var_name)
                # skip data, because we will process it later
                if var.is_data: continue
                prev_op = self._find_real_prev_op(origin_block.ops, op,
                                                  var_name)
                if prev_op is None:
                    continue
                prev_device_spec = prev_op.attr(self._op_device_key)

                if prev_device_spec != cur_device_spec:
                    if var_name not in var_devspec:
                        var_devspec[var_name] = []
                    if cur_device_spec in var_devspec[var_name]: continue
                    var_devspec[var_name].append(cur_device_spec)

                    queue_name = var_name + "_blocking_queue"
                    queue_name = unique_name.generate(queue_name)
                    queue_var = startup_block.create_var(
                        name=queue_name,
                        persistable=True,
                        type=core.VarDesc.VarType.RAW)
                    startup_block.append_op(
                        type='queue_generator',
                        attrs={
                            'names': [queue_name],
                            'capacity': self._num_microbatches
                        })
                    op_role = op.all_attrs()[self._op_role_key]
                    var = block.vars[var_name]
                    block._insert_op(
                        index=index + extra_index,
                        type='enqueue',
                        inputs={'X': var},
                        attrs={
                            'queue_name': queue_name,
                            self._op_device_key: prev_device_spec,
                            self._op_role_key: op_role
                        })
                    extra_index += 1
                    block._insert_op(
                        index=index + extra_index,
                        type='dequeue',
                        outputs={'Out': [var]},
                        attrs={
                            self._op_device_key: cur_device_spec,
                            'queue_name': queue_name,
                            self._op_role_key: op_role
                        })
                    extra_index += 1

    def _add_dequeue_ops_for_optimize(self, block, startup_program):
        startup_block = startup_program.global_block()
        grad_queue_map = dict()
        grad_device_map = dict()
        optimize_index = None
        grad_names_to_dequeue = []

        for index, op in reversed(list(enumerate(block.ops))):
            device = op.attr(self._op_device_key)
            # Optimizer pass
            if not self._is_optimize_op(op):
                optimize_index = index + 1
                break
            if not self._is_update_op(op): continue
            assert self._op_role_var_key in op.attr_names
            op_role_var = op.all_attrs()[self._op_role_var_key]
            assert len(op_role_var) == 2
            grad_name = op_role_var[1]
            assert grad_name not in grad_device_map
            assert grad_name not in grad_names_to_dequeue
            grad_device_map[grad_name] = device
            grad_names_to_dequeue.append(grad_name)

        for grad_name in grad_names_to_dequeue:
            device = grad_device_map[grad_name]
            grad_names = []
            grads = []
            queue_name = grad_name + "_blocking_queue"
            queue_name = unique_name.generate(queue_name)
            grad_queue_map[grad_name] = queue_name
            ref_var = block.vars[grad_name]
            queue_var = startup_block.create_var(
                name=queue_name,
                persistable=True,
                type=core.VarDesc.VarType.RAW)
            startup_block.append_op(
                type='queue_generator',
                attrs={
                    'names': [queue_name],
                    'capacity': self._num_microbatches
                })
            orig_var_name = self._strip_grad_suffix(grad_name)
            for _ in range(self._num_microbatches):
                u_name = unique_name.generate(orig_var_name)
                u_grad_name = self._append_grad_suffix(u_name)
                grad_var = self._create_var(block, ref_var, u_grad_name)
                grad_names.append(u_grad_name)
                grads.append(grad_var)
            block._insert_op(
                index=optimize_index,
                type='dequeue',
                outputs={'Out': grads},
                attrs={
                    self._op_device_key: device,
                    'queue_name': queue_name,
                    self._op_role_key: self._op_role.Optimize
                })
            block._insert_op(
                index=optimize_index + 1,
                type='sum',
                inputs={'X': grad_names},
                outputs={'Out': ref_var},
                attrs={
                    self._op_device_key: device,
                    self._op_role_key: self._op_role.Optimize
                })
        return grad_queue_map

    def _insert_enq_deq_ops_for_update(self, block, startup_program):
        """
        Insert enqueue and dequeue ops for gradients of parameters.
        """
        startup_block = startup_program.global_block()
        grad_queue_map = self._add_dequeue_ops_for_optimize(block,
                                                            startup_program)

        for index, op in reversed(list(enumerate(block.ops))):
            offset = index
            device = op.attr(self._op_device_key)

            # Backward pass
            if self._is_loss_grad_op(op):
                loss_grad_var = block.vars[op.output_arg_names[0]]
                scale_factor = self._num_microbatches
                block._insert_op(
                    index=index + 1,
                    type='scale',
                    inputs={'X': loss_grad_var},
                    outputs={'Out': loss_grad_var},
                    attrs={
                        'scale': 1.0 / scale_factor,
                        self._op_device_key: device,
                        self._op_role_key: self._op_role.Backward
                    })
                break
            if self._is_backward_op(op) and (
                    self._op_role_var_key in op.attr_names):
                op_role_var = op.all_attrs()[self._op_role_var_key]

                if len(op_role_var) == 0:
                    continue
                assert len(op_role_var) % 2 == 0
                for i in range(0, len(op_role_var), 2):
                    grad_name = op_role_var[i + 1]
                    grad_var = block.vars[grad_name]
                    assert grad_name in grad_queue_map
                    queue_name = grad_queue_map[grad_name]
                    block._insert_op(
                        index=offset + 1,
                        type='enqueue',
                        inputs={'X': block.vars[grad_name]},
                        attrs={
                            'queue_name': queue_name,
                            self._op_device_key: device,
                            self._op_role_key: self._op_role.Backward
                        })
                    offset += 1

    def _add_sub_blocks(self, main_block, program_list):
        main_program = main_block.program
        for prog_info in program_list:
            prog = prog_info['program']
            for op in prog.block(0).ops:
                if not op.has_attr('sub_block'):
                    continue
                origin_sub_block_id = op.attr('sub_block').id
                origin_sub_block = main_program.block(origin_sub_block_id)
                new_sub_block = prog._create_block(parent_idx=0)
                for op in origin_sub_block.ops:
                    op_desc = op.desc
                    ap_op = new_sub_block.desc.append_op()
                    ap_op.copy_from(op_desc)
                new_sub_block._sync_with_cpp()
                op._set_attr('sub_block:', new_sub_block)

    def _get_device_info(self, block):
        for op in block.ops:
            if not op._has_kernel(op.type): continue
            op_device = op.attr(self._op_device_key)
            return op_device

    def _process_persistable_vars_in_multi_sections(self, main_program,
                                                    startup_prog, program_list):
        """
        Special Case: process persistable vars that exist in
        multiple sections, e.g., shared weight
        """
        # var_info = {var_name: [program1, program2...]},
        # persistable var only
        var_info = dict()
        for prog_info in program_list:
            prog = prog_info['program']
            block = prog.block(0)
            for var_name in block.vars:
                var = block.var(var_name)
                if not var.persistable: continue
                if not var_name in var_info:
                    var_info[var_name] = []
                if not prog in var_info[var_name]:
                    var_info[var_name].append(prog)
        for var_name in list(var_info.keys()):
            if len(var_info[var_name]) == 1:
                var_info.pop(var_name)

        # write_info = {var_name: program}, where program is the only program
        # in which the var named var_name is written.
        write_info = dict()
        for var_name in var_info.keys():
            for prog in var_info[var_name]:
                block = prog.block(0)
                for op in block.ops:
                    if op.type == "dequeue": continue
                    # We have processed lr related vars
                    if op.attr(self._op_role_key) == int(
                            self._op_role.Optimize.LRSched):
                        continue
                    if var_name in op.desc.output_arg_names():
                        assert var_name not in write_info, (
                            "two sections write the same var({}): second "
                            "op {}.".format(var_name, op))
                        write_info[var_name] = prog
                        break

        for var_name in var_info.keys():
            # Case 1: read only variables, no special process
            if not var_name in write_info: continue

            # Case 2: one write multiple reads
            write_prog = write_info[var_name]
            write_block = write_prog.block(0)
            write_device = self._get_device_info(write_block)
            all_progs = var_info[var_name]
            for prog in all_progs:
                if prog == write_prog: continue

                queue_name = var_name + "_blocking_queue"
                queue_name = unique_name.generate(queue_name)
                queue_var = startup_prog.block(0).create_var(
                    name=queue_name,
                    persistable=True,
                    type=core.VarDesc.VarType.RAW)
                startup_prog.block(0).append_op(
                    type='queue_generator',
                    attrs={
                        'names': [queue_name],
                        'capacity': self._num_microbatches
                    })
                write_block._insert_op(
                    index=0,
                    type='enqueue',
                    inputs={'X': write_block.var(var_name), },
                    attrs={
                        'queue_name': queue_name,
                        self._op_device_key: write_device,
                        # A trick to make the role LRSched to avoid copy every
                        # microbatch
                        self._op_role_key: self._op_role.LRSched
                    })
                read_block = prog.block(0)
                read_device = self._get_device_info(read_block)
                read_block._insert_op(
                    index=0,
                    type='dequeue',
                    outputs={'Out': [read_block.var(var_name)]},
                    attrs={
                        self._op_device_key: read_device,
                        # A trick to make the role LRSched to avoid copy every
                        # microbatch
                        self._op_role_key: self._op_role.LRSched,
                        'queue_name': queue_name,
                    })
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    def minimize(self,
                 loss,
                 startup_program=None,
                 parameter_list=None,
                 no_grad_set=None):
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        main_block = loss.block
        if startup_program is None:
            startup_program = default_startup_program()
        optimize_ops, params_grads = self._optimizer.minimize(
            loss, startup_program, parameter_list, no_grad_set)
        self._update_param_device_map(params_grads, main_block)

        # Step1: add default op_device attribute for regulization and clip ops
        self._add_opdevice_attr_for_regularization_clip(main_block)

        # Step2: add default op_device attribute for ops whose op_device
        # attribute have not been set yet.
        self._add_default_opdevice_attr(main_block)
        device_specs = self._check_validation(main_block)

        # Step3: add enqueue and dequeue ops between section boundaries
        origin_prog = main_block.program.clone(for_test=False)
        origin_main_block = origin_prog.global_block()
        self._insert_enq_deq_ops_for_boundaries(main_block, origin_main_block,
                                                startup_program)

        # Step4: add a pair of enqueue and dequeueN for parameter gradients
        self._insert_enq_deq_ops_for_update(main_block, startup_program)

        main_program = main_block.program

        place_list = []
        place_id_list = []
        for dev_spec in device_specs:
            if dev_spec == "cpu":
                place_list.append(core.CPUPlace())
                place_id_list.append(-1)
            elif "gpu" in dev_spec and ":" in dev_spec:
                dev_index = dev_spec.split(":")[1]
                place_list.append(core.CUDAPlace(int(dev_index)))
                place_id_list.append(int(dev_index))
            else:
                raise ValueError("Unknown device type: %s", dev_spec)

        # Step5: split program into sections and add pairs of
        # enqueue and dequeue ops for data var.
        if len(place_list) == 0:
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            program_list = []
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            ptmp = {
                "program": main_program,
                "input_set": set(),
                "output_set": set()
            }
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            program_list.append(ptmp)
        else:
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            program_list = self._split_program(main_program)
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            for p in program_list:
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                self._create_vars(p["program"].block(0), main_program)
        self._insert_enq_deq_for_data_var(main_block, program_list,
                                          startup_program, device_specs)

        # Step6: Special Case: process persistable vars that exist in
        # multiple sections
        self._process_persistable_vars_in_multi_sections(
            main_program, startup_program, program_list)

        # Step7: Add sub blocks for section programs
        self._add_sub_blocks(main_block, program_list)

        main_program._pipeline_opt = {
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            "trainer": "PipelineTrainer",
            "device_worker": "Section",
            "section_program_list": program_list,
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            "place_list": place_list,
            "place_id_list": place_id_list,
            "sync_steps": -1,
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            "num_microbatches": self._num_microbatches,
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            "start_cpu_core_id": self._start_cpu_core_id,
        }
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        return optimize_ops, params_grads, program_list
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class RecomputeOptimizer(Optimizer):
    """
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	:api_attr: Static Graph
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    Recompute Optimizer Wrapper

    Normally, a training step contains three sub-steps: first, run forward
    Operators to calculate the loss; second, run backward Operators to 
    calculate gradient of the parameters; third, apply optimization method
    to update the value of the parameters.

    In the forward computation process, all variables that are needed by 
    backward computation process will be kept in memory, which occupy a great
    amount of memory when the network becomes very deep.

    Recompute split the network to k segments. In each segment, It will 
    recompute the forward Operators, before running backward operators. It is
    very helpful for saving memory.
 
    The Variables that separate a network to segments are called as checkpoints,
    and users should set it manually. The usage is very simple:

    Args:
        optimizer (Optimizer): The optimizer that is applied to parameters.

    Examples:
        .. code-block:: python

            import paddle.fluid as fluid
            import numpy as np
            def gen_data():
                return {"x": np.random.random(size=(32, 32)).astype('float32'),
                "y": np.random.randint(2, size=(32, 1)).astype('int64')}
            def mlp(input_x, input_y, hid_dim=128, label_dim=2):
                print(input_x)
                fc_1 = fluid.layers.fc(input=input_x, size=hid_dim)
                prediction = fluid.layers.fc(input=[fc_1], size=label_dim, act='softmax')
                cost = fluid.layers.cross_entropy(input=prediction, label=input_y)
                sum_cost = fluid.layers.reduce_mean(cost)
                return sum_cost, fc_1, prediction
            input_x = fluid.layers.data(name="x", shape=[32], dtype='float32')
            input_y = fluid.layers.data(name="y", shape=[1], dtype='int64')
            cost, fc_1, pred = mlp(input_x, input_y)

            sgd = fluid.optimizer.Adam(learning_rate=0.01)
            sgd = fluid.optimizer.RecomputeOptimizer(sgd)
            sgd._set_checkpoints([fc_1, pred])
            sgd.minimize(cost)

            print("Finished optimize")
            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
            step = 10

            for i in range(step):
                cost_val = exe.run(feed=gen_data(),
                       program=fluid.default_main_program(),
                       fetch_list=[cost.name])
                print("step=%d cost=%f" % (i, cost_val[0]))

    """

    def __init__(self, optimizer):
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        if framework.in_dygraph_mode():
            raise Exception("In dygraph, don't support RecomputeOptimizer.")
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        self._optimizer = optimizer
        self._checkpoints = None
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        self._learning_rate = self._optimizer._learning_rate
        self._learning_rate_map = self._optimizer._learning_rate_map
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    def _set_checkpoints(self, checkpoints):
        self._checkpoints = checkpoints

    def load(self, stat_dict):
        """
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	:api_attr: Static Graph
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        load function is not supported by Recompute Optimizer for now.
        :return: None

        Args:
            stat_dict: the dict load by load_persistable method

        Examples:
            .. code-block:: python

                import paddle.fluid as fluid
                import paddle.compat as cpt
                
                def mlp(input_x, input_y, hid_dim=128, label_dim=2):
                    fc_1 = fluid.layers.fc(input=input_x, size=hid_dim)
                    prediction = fluid.layers.fc(input=[fc_1], size=label_dim, act='softmax')
                    cost = fluid.layers.cross_entropy(input=prediction, label=input_y)
                    sum_cost = fluid.layers.reduce_mean(cost)
                    return sum_cost, fc_1, prediction
                
                input_x = fluid.layers.data(name="x", shape=[32], dtype='float32')
                input_y = fluid.layers.data(name="y", shape=[1], dtype='int64')
                cost, fc_1, pred = mlp(input_x, input_y)
                print("Finished FF")
                
                sgd = fluid.optimizer.Adam(learning_rate=0.01)
                sgd = fluid.optimizer.RecomputeOptimizer(sgd)
                sgd._set_checkpoints([fc_1, pred])
                try:
                    stat_dict = {}
                    sgd.load(stat_dict)
                except NotImplementedError as e:
                    print(cpt.get_exception_message(e))
        """
        raise NotImplementedError(
            "load function is not supported by Recompute Optimizer for now")

    def apply_gradients(self, params_grads):
        """
        call apply_gradients function of self._optimizer.

        Args:
            params_grads (list): list of (param, grad) pair to do optimization.

        Returns:
            list: A list of operators appended to the current program.

        Examples:
            .. code-block:: python

                import paddle.fluid as fluid
                import paddle.fluid.framework as framework

                def mlp(input_x, input_y, hid_dim=128, label_dim=2):
                    fc_1 = fluid.layers.fc(input=input_x, size=hid_dim)
                    prediction = fluid.layers.fc(input=[fc_1], size=label_dim, act='softmax')
                    cost = fluid.layers.cross_entropy(input=prediction, label=input_y)
                    sum_cost = fluid.layers.reduce_mean(cost)
                    return sum_cost, fc_1, prediction


                input_x = fluid.layers.data(name="x", shape=[32], dtype='float32')
                input_y = fluid.layers.data(name="y", shape=[1], dtype='int64')
                cost, fc_1, pred = mlp(input_x, input_y)
                print("Finished FF")

                sgd = fluid.optimizer.Adam(learning_rate=0.01)
                sgd = fluid.optimizer.RecomputeOptimizer(sgd)
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                sgd._set_checkpoints([fc_1, pred])
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                params_grads = sgd.backward(
                    cost,
                    startup_program=None,
                    parameter_list=None,
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                    no_grad_set=None)
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                program = cost.block.program
                with framework.program_guard(program, None):
                    optimize_ops = sgd.apply_gradients(params_grads)

                print("Finished apply gradients")
        """

        return self._optimizer.apply_gradients(params_grads=params_grads)

    def backward(self,
                 loss,
                 startup_program=None,
                 parameter_list=None,
                 no_grad_set=None,
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                 callbacks=None):
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        """
        call append_backward with checkpoints.

        Args:
            loss (Variable): loss variable to run optimizations.
            startup_program (Program): startup_program for initializing parameters
                in `parameter_list`.
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            parameter_list (list): list of Variables or Variable.names to update.
            no_grad_set (set|None): set of Variables or Variables.names should be ignored.
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            callbacks (list|None): list of callables to run when appending backward
                operator for one parameter.
            checkpoints (list): list of Variables as checkpoints

        Examples:
            .. code-block:: python

                import paddle.fluid as fluid
    
                def mlp(input_x, input_y, hid_dim=128, label_dim=2):
                    fc_1 = fluid.layers.fc(input=input_x, size=hid_dim)
                    prediction = fluid.layers.fc(input=[fc_1], size=label_dim, act='softmax')
                    cost = fluid.layers.cross_entropy(input=prediction, label=input_y)
                    sum_cost = fluid.layers.reduce_mean(cost)
                    return sum_cost, fc_1, prediction
    
    
                input_x = fluid.layers.data(name="x", shape=[32], dtype='float32')
                input_y = fluid.layers.data(name="y", shape=[1], dtype='int64')
                cost, fc_1, pred = mlp(input_x, input_y)
                print("Finished FF")
    
                sgd = fluid.optimizer.Adam(learning_rate=0.01)
                sgd = fluid.optimizer.RecomputeOptimizer(sgd)
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                sgd._set_checkpoints([fc_1, pred])
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                params_grads = sgd.backward(
                    cost,
                    startup_program=None,
                    parameter_list=None,
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                    no_grad_set=None)
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                print("Finished backward")
        """

        if framework.in_dygraph_mode():
            raise NotImplementedError(
                "DyGraph current does not support recompute")

        self._dtype = loss.dtype
        program = loss.block.program
        with program_guard(program, startup_program):
            params_grads = append_backward(
                loss,
                parameter_list,
                no_grad_set,
                checkpoints=self._checkpoints)
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            # Note: since we can't use all_reduce_op now,
            #  dgc_op should be the last op of one grad.
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            if hasattr(self._optimizer, "_append_dgc_ops"):
                self._optimizer._append_dgc_ops(params_grads)
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        return params_grads

    def apply_optimize(self, loss, startup_program, params_grads):
        """
        call the apply_optimize function of self._optimizer
        Args:
            loss (Variable): loss variable to run optimizations.
            startup_program (Program): startup_program for initializing parameters
                in `parameter_list`.
            params_grads (list): list of (param, grad) pair to do optimization.
        Examples:
            .. code-block:: python
                import paddle.fluid as fluid
                
                def mlp(input_x, input_y, hid_dim=128, label_dim=2):
                    fc_1 = fluid.layers.fc(input=input_x, size=hid_dim)
                    prediction = fluid.layers.fc(input=[fc_1], size=label_dim, act='softmax')
                    cost = fluid.layers.cross_entropy(input=prediction, label=input_y)
                    sum_cost = fluid.layers.reduce_mean(cost)
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                    return sum_cost, fc_1, prediction                
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                input_x = fluid.layers.data(name="x", shape=[32], dtype='float32')
                input_y = fluid.layers.data(name="y", shape=[1], dtype='int64')
                cost, fc_1, pred = mlp(input_x, input_y)
                print("Finished FF")
                
                sgd = fluid.optimizer.Adam(learning_rate=0.01)
                sgd = fluid.optimizer.RecomputeOptimizer(sgd)
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                sgd._set_checkpoints([fc_1, pred])
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                params_grads = sgd.backward(
                    cost,
                    startup_program=None,
                    parameter_list=None,
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                    no_grad_set=None)
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                optimize_ops = sgd.apply_optimize(
                    cost, startup_program=None, params_grads=params_grads)
                
                print("Finished apply_optimize")
        """

        return self._optimizer.apply_optimize(
            loss, startup_program=startup_program, params_grads=params_grads)

    def minimize(self,
                 loss,
                 startup_program=None,
                 parameter_list=None,
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                 no_grad_set=None):
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        assert isinstance(loss, Variable), "The loss should be an Variable."
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        assert (self._checkpoints is not None
                ), "You should call _set_checkpoints first"
        if framework.in_dygraph_mode():
            raise NotImplementedError(
                "DyGraph current does not support recompute")
        params_grads = self.backward(
            loss,
            startup_program=startup_program,
            parameter_list=parameter_list,
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            no_grad_set=no_grad_set)
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        optimize_ops = self.apply_optimize(
            loss, startup_program=startup_program, params_grads=params_grads)

        return optimize_ops, params_grads


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class LookaheadOptimizer(object):
    """
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	:api_attr: Static Graph
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    This implements the Lookahead optimizer of the
    paper : https://arxiv.org/abs/1907.08610.

    Lookahead keeps two sets of params: the fast_params and
    the slow_params. inner_optimizer update fast_params every 
    training step. Lookahead updates the slow_params and fast_params 
    every k training steps as follows:

    .. math::
        
        slow\_param_t &= slow\_param_{t-1} + \\alpha * (fast\_param_{t-1} - slow\_param_{t-1})
	
	fast\_param_t &=  slow\_param_t

    Args:
        inner_optimizer (Optimizer): The optimizer that update fast params step by step. 
        alpha (float): The learning rate of Lookahead.
        k (int): The slow params is updated every k steps.

    Examples:
        .. code-block:: python

            import paddle
            import paddle.fluid as fluid
            import numpy as np

	    x = fluid.layers.data(name='x', shape=[2], dtype='float32')
	    label = fluid.layers.data(name="label", shape=[1], dtype="int64")
	    y = fluid.layers.fc(input=[x], size=2, act="softmax")
	    loss = fluid.layers.cross_entropy(input=y, label=label)
	    loss = fluid.layers.mean(x=loss)
	    sgd = fluid.optimizer.SGD(learning_rate=0.01)
	    optimizer = fluid.optimizer.LookaheadOptimizer(sgd,
                                            alpha=0.5,
                                            k=5)
	    optimizer.minimize(loss)
	    main_program = fluid.default_main_program()
	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())

	    feeder = fluid.DataFeeder(feed_list=[x, label], place=place)

	    step = 0
            while(step < 10):
                step += 1
		exe.run(fluid.default_main_program(),
            	feed=feeder.feed(batch_data))

    """

    def __init__(self, inner_optimizer, alpha=0.5, k=5):

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        if framework.in_dygraph_mode():
            raise Exception("In dygraph, don't support LookaheadOptimizer.")
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        assert (inner_optimizer is not None), "inner optimizer can not be None"
        assert (
            0.0 <= alpha <= 1.0
        ), "alpha should be larger or equal to 0.0, and less or equal than 1.0"
        assert (isinstance(k, int) and k > 0), "k should be a positive integer"

        self.inner_optimizer = inner_optimizer
        self.alpha = alpha
        self.k = k
        self.type = "lookahead"

    def minimize(self, loss, startup_program=None):

        # Apply inner optimizer to the main_program
        mini_out = self.inner_optimizer.minimize(
            loss, startup_program=startup_program)

        # Get startup_program and main_program
        if startup_program is None:
            startup_program = default_startup_program()
        main_block = loss.block

        # add some vars to the main_program
        params = [param.name for param in main_block.all_parameters()]
        param_to_slow = {}
        for param in params:
            fast_var = main_block.var(param)
            assert (fast_var is not None)
            slow_var = main_block.create_var(
                name=param + "@SLOW",
                shape=fast_var.shape,
                dtype=fast_var.dtype,
                persistable=True)
            param_to_slow[param] = slow_var

        # add some vars to the startup_program
        startup_block = startup_program.global_block()
        for param in params:
            fast_var = startup_block.var(param)
            assert (fast_var is not None)
            slow_var = startup_block.create_var(
                name=param + "@SLOW",
                shape=fast_var.shape,
                dtype=fast_var.dtype,
                persistable=True)

            startup_block.append_op(
                type="assign",
                inputs={"X": fast_var},
                outputs={"Out": slow_var})

        # Add Var k to main prog and startup prog
        k = layers.create_global_var(
            name="lookahead_k",
            shape=[1],
            value=int(self.k),
            dtype='int32',
            persistable=True)

        # Add Var alpha to main prog and startup prog
        alpha = layers.create_global_var(
            name="lookahead_alpha",
            shape=[1],
            value=float(self.alpha),
            dtype='float32',
            persistable=True)

        # Add Var step
        step = layers.create_global_var(
            name="lookahead_step",
            shape=[1],
            value=int(0),
            dtype='int32',
            persistable=True)
        layers.increment(x=step, value=1.0, in_place=True)

        # lookahead
        zero_var = layers.fill_constant(shape=[1], dtype='float32', value=0.0)

        one_var = layers.fill_constant(shape=[1], dtype='float32', value=1.0)

        mod = layers.elementwise_mod(step, k)
        with layers.control_flow.Switch() as switch:
            with switch.case(mod == zero_var):
                for param_name in params:
                    fast_var = main_block.var(param_name)
                    slow_var = param_to_slow[param_name]
                    tmp_var = layers.elementwise_add(
                        layers.elementwise_mul(fast_var, alpha),
                        layers.elementwise_mul(
                            slow_var, layers.elementwise_sub(one_var, alpha)))
                    layers.assign(input=tmp_var, output=slow_var)
                    layers.assign(input=tmp_var, output=fast_var)
            with switch.default():
                pass
        return mini_out