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# Copyright (c) Facebook, Inc. and its affiliates.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.
from torch.optim import Adagrad
from fairseq.optim import LegacyFairseqOptimizer, register_optimizer
@register_optimizer("adagrad_with_grad_clip")
class FairseqAdagradWithGradClip(LegacyFairseqOptimizer):
def __init__(self, args, params):
super().__init__(args)
self._optimizer = AdagradWithGradClip(params, **self.optimizer_config)
@staticmethod
def add_args(parser):
"""Add optimizer-specific arguments to the parser."""
# fmt: off
parser.add_argument('--weight-decay', '--wd', default=0.0, type=float, metavar='WD',
help='weight decay')
parser.add_argument('--adagrad-clip', default=0.0, type=float, metavar='D',
help='internal grad clip')
# fmt: on
@property
def optimizer_config(self):
"""
Return a kwarg dictionary that will be used to override optimizer
args stored in checkpoints. This allows us to load a checkpoint and
resume training using a different set of optimizer args, e.g., with a
different learning rate.
"""
return {
"lr": self.args.lr[0],
"weight_decay": self.args.weight_decay,
"grad_clip": self.args.adagrad_clip,
}
@property
def supports_flat_params(self):
return False
def _clip_grad(clr, grad, group_grad_clip):
if group_grad_clip > 0:
norm = grad.norm(2).item()
if norm > group_grad_clip:
clr *= group_grad_clip / (norm + 1e-10)
return clr
class AdagradWithGradClip(Adagrad):
"""Adagrad algorithm with custom gradient clipping"""
def __init__(
self,
params,
lr=1e-2,
lr_decay=0,
weight_decay=0,
initial_accumulator_value=0,
grad_clip=0,
):
Adagrad.__init__(
self,
params,
lr=lr,
lr_decay=lr_decay,
weight_decay=weight_decay,
initial_accumulator_value=initial_accumulator_value,
)
self.defaults["grad_clip"] = grad_clip
self.param_groups[0].setdefault("grad_clip", grad_clip)
def step(self, closure=None):
loss = None
if closure is not None:
loss = closure()
for group in self.param_groups:
for p in group["params"]:
if p.grad is None:
continue
grad = p.grad.data
state = self.state[p]
state["step"] += 1
if group["weight_decay"] != 0:
if p.grad.data.is_sparse:
raise RuntimeError(
"weight_decay option is "
"not compatible with sparse "
"gradients"
)
grad = grad.add(group["weight_decay"], p.data)
clr = group["lr"] / (1 + (state["step"] - 1) * group["lr_decay"])
# clip
clr = _clip_grad(clr=clr, grad=grad, group_grad_clip=group["grad_clip"])
if grad.is_sparse:
# the update is non-linear so indices must be unique
grad = grad.coalesce()
grad_indices = grad._indices()
grad_values = grad._values()
size = grad.size()
def make_sparse(values):
constructor = grad.new
if grad_indices.dim() == 0 or values.dim() == 0:
return constructor().resize_as_(grad)
return constructor(grad_indices, values, size)
state["sum"].add_(make_sparse(grad_values.pow(2)))
std = state["sum"]._sparse_mask(grad)
std_values = std._values().sqrt_().add_(1e-10)
p.data.add_(-clr, make_sparse(grad_values / std_values))
else:
state["sum"].addcmul_(1, grad, grad)
std = state["sum"].sqrt().add_(1e-10)
p.data.addcdiv_(-clr, grad, std)
return loss
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