Source code for mindspore.boost.grad_accumulation

# Copyright 2021 Huawei Technologies Co., Ltd
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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.
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# http://www.apache.org/licenses/LICENSE-2.0
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# Unless required by applicable law or agreed to in writing, software
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"""grad accumulation"""
from __future__ import absolute_import
from __future__ import division

from mindspore.nn.cell import Cell
from mindspore.common import Parameter, Tensor
from mindspore.common import dtype as mstype
from mindspore.ops import composite as C
from mindspore.ops import functional as F
from mindspore.ops import operations as P


__all__ = ["GradientAccumulation", "gradient_accumulation_op", "gradient_clear_op"]


gradient_accumulation_op = C.MultitypeFuncGraph("gradient_accumulation_op")


@gradient_accumulation_op.register("Int64", "Tensor", "Tensor")
def cumulative_grad_process(accumulation_step, cumulative_grad, grad):
    """Apply gradient accumulation to cumulative grad."""
    return P.AssignAdd()(cumulative_grad, grad / accumulation_step)


gradient_clear_op = C.MultitypeFuncGraph("gradient_clear_op")


@gradient_clear_op.register("Tensor")
def clear_grad(cumulative_grad):
    """Clear grad."""
    zero_grad = P.ZerosLike()(cumulative_grad)
    return F.assign(cumulative_grad, zero_grad)


[文档]class GradientAccumulation(Cell): """ After accumulating the gradients of multiple steps, call to optimize its update. Args: max_accumulation_step (int): Steps to accumulate gradients. optimizer (Cell): Optimizer used. """ def __init__(self, max_accumulation_step, optimizer): super(GradientAccumulation, self).__init__() self._max_accumulation_step = max_accumulation_step self.optimizer = optimizer self.weights = optimizer.parameters self.hyper_map = C.HyperMap() self._grad_accumulation = self.weights.clone(prefix="grad_accumulation", init='zeros') self._accumulation_step = Parameter(Tensor(0, dtype=mstype.int32), name="accumulation_step") def construct(self, loss, grads): loss = F.depend(loss, self.hyper_map(F.partial(gradient_accumulation_op, self._max_accumulation_step), self._grad_accumulation, grads)) self._accumulation_step += 1 if self._accumulation_step >= self._max_accumulation_step: loss = F.depend(loss, self.optimizer(self._grad_accumulation)) self._accumulation_step = 0 if self._accumulation_step == 0: loss = F.depend(loss, self.hyper_map(F.partial(gradient_clear_op), self._grad_accumulation)) return loss