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# Copyright (c) 2020 Mobvoi Inc (Binbin Zhang) | |
# 2022 Ximalaya Inc (Yuguang Yang) | |
# 2024 Alibaba Inc (authors: Xiang Lyu) | |
# | |
# Licensed under the Apache License, Version 2.0 (the "License"); | |
# you may not use this file except in compliance with the License. | |
# You may obtain a copy of the License at | |
# | |
# http://www.apache.org/licenses/LICENSE-2.0 | |
# | |
# Unless required by applicable law or agreed to in writing, software | |
# distributed under the License is distributed on an "AS IS" BASIS, | |
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | |
# See the License for the specific language governing permissions and | |
# limitations under the License. | |
# Modified from ESPnet(https://github.com/espnet/espnet) | |
# NeMo(https://github.com/NVIDIA/NeMo) | |
from typing import Union | |
import math | |
import warnings | |
import torch | |
from torch.optim.lr_scheduler import _LRScheduler | |
class WarmupLR(_LRScheduler): | |
"""The WarmupLR scheduler | |
This scheduler is almost same as NoamLR Scheduler except for following | |
difference: | |
NoamLR: | |
lr = optimizer.lr * model_size ** -0.5 | |
* min(step ** -0.5, step * warmup_step ** -1.5) | |
WarmupLR: | |
lr = optimizer.lr * warmup_step ** 0.5 | |
* min(step ** -0.5, step * warmup_step ** -1.5) | |
Note that the maximum lr equals to optimizer.lr in this scheduler. | |
""" | |
def __init__( | |
self, | |
optimizer: torch.optim.Optimizer, | |
warmup_steps: Union[int, float] = 25000, | |
last_epoch: int = -1, | |
): | |
self.warmup_steps = warmup_steps | |
# __init__() must be invoked before setting field | |
# because step() is also invoked in __init__() | |
super().__init__(optimizer, last_epoch) | |
def __repr__(self): | |
return f"{self.__class__.__name__}(warmup_steps={self.warmup_steps})" | |
def get_lr(self): | |
step_num = self.last_epoch + 1 | |
if self.warmup_steps == 0: | |
return [lr * step_num**-0.5 for lr in self.base_lrs] | |
else: | |
return [ | |
lr * self.warmup_steps**0.5 * | |
min(step_num**-0.5, step_num * self.warmup_steps**-1.5) | |
for lr in self.base_lrs | |
] | |
def set_step(self, step: int): | |
self.last_epoch = step | |
class WarmupPolicy(_LRScheduler): | |
"""Adds warmup kwargs and warmup logic to lr policy. | |
All arguments should be passed as kwargs for clarity, | |
Args: | |
warmup_steps: Number of training steps in warmup stage | |
warmup_ratio: Ratio of warmup steps to total steps | |
max_steps: Total number of steps while training or `None` for | |
infinite training | |
""" | |
def __init__(self, | |
optimizer, | |
*, | |
warmup_steps=None, | |
warmup_ratio=None, | |
max_steps=None, | |
min_lr=0.0, | |
last_epoch=-1): | |
assert not (warmup_steps is not None and warmup_ratio is not None),\ | |
"Either use particular number of step or ratio" | |
assert warmup_ratio is None or max_steps is not None, \ | |
"If there is a ratio, there should be a total steps" | |
# It is necessary to assign all attributes *before* __init__, | |
# as class is wrapped by an inner class. | |
self.max_steps = max_steps | |
if warmup_steps is not None: | |
self.warmup_steps = warmup_steps | |
elif warmup_ratio is not None: | |
self.warmup_steps = int(warmup_ratio * max_steps) | |
else: | |
self.warmup_steps = 0 | |
self.min_lr = min_lr | |
super().__init__(optimizer, last_epoch) | |
def get_lr(self): | |
if not self._get_lr_called_within_step: | |
warnings.warn( | |
"To get the last learning rate computed " | |
"by the scheduler, please use `get_last_lr()`.", | |
UserWarning, | |
stacklevel=2) | |
step = self.last_epoch | |
if step <= self.warmup_steps and self.warmup_steps > 0: | |
return self._get_warmup_lr(step) | |
if step > self.max_steps: | |
return [self.min_lr for _ in self.base_lrs] | |
return self._get_lr(step) | |
def _get_warmup_lr(self, step): | |
lr_val = (step + 1) / (self.warmup_steps + 1) | |
return [initial_lr * lr_val for initial_lr in self.base_lrs] | |
def _get_lr(self, step): | |
"""Simple const lr policy""" | |
return self.base_lrs | |
class SquareRootConstantPolicy(_LRScheduler): | |
"""Adds warmup kwargs and warmup logic to lr policy. | |
All arguments should be passed as kwargs for clarity, | |
Args: | |
warmup_steps: Number of training steps in warmup stage | |
warmup_ratio: Ratio of warmup steps to total steps | |
max_steps: Total number of steps while training or `None` for | |
infinite training | |
""" | |
def __init__(self, | |
optimizer, | |
*, | |
constant_steps=None, | |
constant_ratio=None, | |
max_steps=None, | |
min_lr=0.0, | |
last_epoch=-1): | |
assert not (constant_steps is not None | |
and constant_ratio is not None), \ | |
"Either use particular number of step or ratio" | |
assert constant_ratio is None or max_steps is not None, \ | |
"If there is a ratio, there should be a total steps" | |
# It is necessary to assign all attributes *before* __init__, | |
# as class is wrapped by an inner class. | |
self.max_steps = max_steps | |
if constant_steps is not None: | |
self.constant_steps = constant_steps | |
elif constant_ratio is not None: | |
self.constant_steps = int(constant_ratio * max_steps) | |
else: | |
self.constant_steps = 0 | |
self.constant_lr = 1 / (constant_steps**0.5) | |
self.min_lr = min_lr | |
super().__init__(optimizer, last_epoch) | |
def get_lr(self): | |
if not self._get_lr_called_within_step: | |
warnings.warn( | |
"To get the last learning rate computed " | |
"by the scheduler, please use `get_last_lr()`.", | |
UserWarning, | |
stacklevel=2) | |
step = self.last_epoch | |
if step <= self.constant_steps: | |
return [self.constant_lr for _ in self.base_lrs] | |
if step > self.max_steps: | |
return [self.min_lr for _ in self.base_lrs] | |
return self._get_lr(step) | |
def _get_lr(self, step): | |
"""Simple const lr policy""" | |
return self.base_lrs | |
class WarmupHoldPolicy(WarmupPolicy): | |
"""Variant of WarmupPolicy which maintains high | |
learning rate for a defined number of steps. | |
All arguments should be passed as kwargs for clarity, | |
Args: | |
warmup_steps: Number of training steps in warmup stage | |
warmup_ratio: Ratio of warmup steps to total steps | |
hold_steps: Number of training steps to | |
hold the learning rate after warm up | |
hold_ratio: Ratio of hold steps to total steps | |
max_steps: Total number of steps while training or `None` for | |
infinite training | |
""" | |
def __init__( | |
self, | |
optimizer, | |
*, | |
warmup_steps=None, | |
warmup_ratio=None, | |
hold_steps=None, | |
hold_ratio=None, | |
max_steps=None, | |
min_lr=0.0, | |
last_epoch=-1, | |
): | |
assert not (hold_steps is not None and hold_ratio is not None), \ | |
"Either use particular number of step or ratio" | |
assert hold_ratio is None or max_steps is not None, \ | |
"If there is a ratio, there should be a total steps" | |
self.min_lr = min_lr | |
self._last_warmup_lr = 0.0 | |
# Necessary to duplicate as class attributes are hidden in inner class | |
self.max_steps = max_steps | |
if warmup_steps is not None: | |
self.warmup_steps = warmup_steps | |
elif warmup_ratio is not None: | |
self.warmup_steps = int(warmup_ratio * max_steps) | |
else: | |
self.warmup_steps = 0 | |
if hold_steps is not None: | |
self.hold_steps = hold_steps + self.warmup_steps | |
elif hold_ratio is not None: | |
self.hold_steps = int(hold_ratio * max_steps) + self.warmup_steps | |
else: | |
self.hold_steps = 0 | |
super().__init__( | |
optimizer, | |
warmup_steps=warmup_steps, | |
warmup_ratio=warmup_ratio, | |
max_steps=max_steps, | |
last_epoch=last_epoch, | |
min_lr=min_lr, | |
) | |
def get_lr(self): | |
if not self._get_lr_called_within_step: | |
warnings.warn( | |
"To get the last learning rate computed by the scheduler," | |
" " | |
"please use `get_last_lr()`.", | |
UserWarning, | |
stacklevel=2) | |
step = self.last_epoch | |
# Warmup phase | |
if step <= self.warmup_steps and self.warmup_steps > 0: | |
return self._get_warmup_lr(step) | |
# Hold phase | |
if (step >= self.warmup_steps) and (step < self.hold_steps): | |
return self.base_lrs | |
if step > self.max_steps: | |
return [self.min_lr for _ in self.base_lrs] | |
return self._get_lr(step) | |
class WarmupAnnealHoldPolicy(_LRScheduler): | |
"""Adds warmup kwargs and warmup logic to lr policy. | |
All arguments should be passed as kwargs for clarity, | |
Args: | |
warmup_steps: Number of training steps in warmup stage | |
warmup_ratio: Ratio of warmup steps to total steps | |
max_steps: Total number of steps while training or `None` for | |
infinite training | |
min_lr: Minimum lr to hold the learning rate after decay at. | |
constant_steps: Number of steps to keep lr constant at. | |
constant_ratio: Ratio of steps to keep lr constant. | |
""" | |
def __init__( | |
self, | |
optimizer, | |
*, | |
warmup_steps=None, | |
warmup_ratio=None, | |
constant_steps=None, | |
constant_ratio=None, | |
max_steps=None, | |
min_lr=0.0, | |
last_epoch=-1, | |
): | |
assert not (warmup_steps is not None | |
and warmup_ratio is not None), \ | |
"Either use particular number of step or ratio" | |
assert not (constant_steps is not None | |
and constant_ratio is not None), \ | |
"Either use constant_steps or constant_ratio" | |
assert warmup_ratio is None or max_steps is not None, \ | |
"If there is a ratio, there should be a total steps" | |
# It is necessary to assign all attributes *before* __init__, | |
# as class is wrapped by an inner class. | |
self.max_steps = max_steps | |
if warmup_steps is not None: | |
self.warmup_steps = warmup_steps | |
elif warmup_ratio is not None: | |
self.warmup_steps = int(warmup_ratio * max_steps) | |
else: | |
self.warmup_steps = 0 | |
if constant_steps is not None: | |
self.constant_steps = constant_steps | |
elif constant_ratio is not None: | |
self.constant_steps = int(constant_ratio * max_steps) | |
else: | |
self.constant_steps = 0 | |
self.decay_steps = max_steps - (self.constant_steps + | |
self.warmup_steps) | |
self.min_lr = min_lr | |
super().__init__(optimizer, last_epoch) | |
def get_lr(self): | |
if not self._get_lr_called_within_step: | |
warnings.warn( | |
"To get the last learning rate computed " | |
"by the scheduler, please use `get_last_lr()`.", | |
UserWarning, | |
stacklevel=2) | |
step = self.last_epoch | |
# Warmup steps | |
if self.warmup_steps > 0 and step <= self.warmup_steps: | |
return self._get_warmup_lr(step) | |
# Constant steps after warmup and decay | |
if self.constant_steps > 0 and ( | |
self.warmup_steps + self.decay_steps) < step <= self.max_steps: | |
return self._get_constant_lr(step) | |
# Min lr after max steps of updates | |
if step > self.max_steps: | |
return [self.min_lr for _ in self.base_lrs] | |
return self._get_lr(step) | |
def _get_warmup_lr(self, step): | |
lr_val = (step + 1) / (self.warmup_steps + 1) | |
return [initial_lr * lr_val for initial_lr in self.base_lrs] | |
def _get_constant_lr(self, step): | |
return [self.min_lr for _ in self.base_lrs] | |
def _get_lr(self, step): | |
"""Simple const lr policy""" | |
return self.base_lrs | |
def _squareroot_annealing(initial_lr, step, max_steps, min_lr): | |
mult = ((max_steps - step) / max_steps)**0.5 | |
out_lr = initial_lr * mult | |
out_lr = max(out_lr, min_lr) | |
return out_lr | |
def _square_annealing(initial_lr, step, max_steps, min_lr): | |
mult = ((max_steps - step) / max_steps)**2 | |
out_lr = initial_lr * mult | |
out_lr = max(out_lr, min_lr) | |
return out_lr | |
def _cosine_annealing(initial_lr, step, max_steps, min_lr): | |
mult = 0.5 * (1 + math.cos(math.pi * step / max_steps)) | |
out_lr = (initial_lr - min_lr) * mult + min_lr | |
return out_lr | |
def _linear_warmup_with_cosine_annealing(max_lr, warmup_steps, step, | |
decay_steps, min_lr): | |
assert max_lr > min_lr | |
# Use linear warmup for the initial part. | |
if warmup_steps > 0 and step <= warmup_steps: | |
return max_lr * float(step) / float(warmup_steps) | |
# For any steps larger than `decay_steps`, use `min_lr`. | |
if step > warmup_steps + decay_steps: | |
return min_lr | |
# If we are done with the warmup period, use the decay style. | |
num_steps_ = step - warmup_steps | |
decay_steps_ = decay_steps | |
decay_ratio = float(num_steps_) / float(decay_steps_) | |
assert decay_ratio >= 0.0 | |
assert decay_ratio <= 1.0 | |
delta_lr = max_lr - min_lr | |
coeff = 0.5 * (math.cos(math.pi * decay_ratio) + 1.0) | |
return min_lr + coeff * delta_lr | |
def _poly_decay(initial_lr, step, decay_steps, power, min_lr, cycle): | |
if cycle: | |
multiplier = 1.0 if step == 0 else math.ceil(step / decay_steps) | |
decay_steps *= multiplier | |
else: | |
step = min(step, decay_steps) | |
p = step / decay_steps | |
lr = (initial_lr - min_lr) * math.pow(1.0 - p, power) | |
lr += min_lr | |
return lr | |
def _noam_hold_annealing(initial_lr, step, warmup_steps, hold_steps, | |
decay_rate, min_lr): | |
# hold_steps = total number of steps | |
# to hold the LR, not the warmup + hold steps. | |
T_warmup_decay = max(1, warmup_steps**decay_rate) | |
T_hold_decay = max(1, (step - hold_steps)**decay_rate) | |
lr = (initial_lr * T_warmup_decay) / T_hold_decay | |
lr = max(lr, min_lr) | |
return lr | |
class SquareAnnealing(WarmupPolicy): | |
def __init__(self, | |
optimizer, | |
*, | |
max_steps, | |
min_lr=1e-5, | |
last_epoch=-1, | |
**kwargs): | |
super().__init__(optimizer=optimizer, | |
max_steps=max_steps, | |
last_epoch=last_epoch, | |
min_lr=min_lr, | |
**kwargs) | |
def _get_lr(self, step): | |
new_lrs = [ | |
_square_annealing( | |
initial_lr=initial_lr, | |
step=step - self.warmup_steps, | |
max_steps=self.max_steps - self.warmup_steps, | |
min_lr=self.min_lr, | |
) for initial_lr in self.base_lrs | |
] | |
return new_lrs | |
class SquareRootAnnealing(WarmupPolicy): | |
def __init__(self, | |
optimizer, | |
*, | |
max_steps, | |
min_lr=0, | |
last_epoch=-1, | |
**kwargs): | |
super().__init__(optimizer=optimizer, | |
max_steps=max_steps, | |
last_epoch=last_epoch, | |
min_lr=min_lr, | |
**kwargs) | |
def _get_lr(self, step): | |
new_lrs = [ | |
_squareroot_annealing(initial_lr=initial_lr, | |
step=step, | |
max_steps=self.max_steps, | |
min_lr=self.min_lr) | |
for initial_lr in self.base_lrs | |
] | |
return new_lrs | |
class CosineAnnealing(WarmupAnnealHoldPolicy): | |
def __init__(self, | |
optimizer, | |
*, | |
max_steps, | |
min_lr=0, | |
last_epoch=-1, | |
**kwargs): | |
super().__init__(optimizer=optimizer, | |
max_steps=max_steps, | |
last_epoch=last_epoch, | |
min_lr=min_lr, | |
**kwargs) | |
def _get_lr(self, step): | |
for initial_lr in self.base_lrs: | |
if initial_lr < self.min_lr: | |
raise ValueError( | |
f"{self} received an initial learning rate " | |
f"that was lower than the minimum learning rate.") | |
if self.constant_steps is None or self.constant_steps == 0: | |
new_lrs = [ | |
_cosine_annealing( | |
initial_lr=initial_lr, | |
step=step - self.warmup_steps, | |
max_steps=self.max_steps - self.warmup_steps, | |
min_lr=self.min_lr, | |
) for initial_lr in self.base_lrs | |
] | |
else: | |
new_lrs = self._get_linear_warmup_with_cosine_annealing_lr(step) | |
return new_lrs | |
def _get_warmup_lr(self, step): | |
if self.constant_steps is None or self.constant_steps == 0: | |
return super()._get_warmup_lr(step) | |
else: | |
# Use linear warmup for the initial part. | |
return self._get_linear_warmup_with_cosine_annealing_lr(step) | |
def _get_constant_lr(self, step): | |
# Only called when `constant_steps` > 0. | |
return self._get_linear_warmup_with_cosine_annealing_lr(step) | |
def _get_linear_warmup_with_cosine_annealing_lr(self, step): | |
# Cosine Schedule for Megatron LM, | |
# slightly different warmup schedule + constant LR at the end. | |
new_lrs = [ | |
_linear_warmup_with_cosine_annealing( | |
max_lr=self.base_lrs[0], | |
warmup_steps=self.warmup_steps, | |
step=step, | |
decay_steps=self.decay_steps, | |
min_lr=self.min_lr, | |
) for _ in self.base_lrs | |
] | |
return new_lrs | |
class NoamAnnealing(_LRScheduler): | |
def __init__(self, | |
optimizer, | |
*, | |
d_model, | |
warmup_steps=None, | |
warmup_ratio=None, | |
max_steps=None, | |
min_lr=0.0, | |
last_epoch=-1): | |
self._normalize = d_model**(-0.5) | |
assert not (warmup_steps is not None and warmup_ratio is not None), \ | |
"Either use particular number of step or ratio" | |
assert warmup_ratio is None or max_steps is not None, \ | |
"If there is a ratio, there should be a total steps" | |
# It is necessary to assign all attributes *before* __init__, | |
# as class is wrapped by an inner class. | |
self.max_steps = max_steps | |
if warmup_steps is not None: | |
self.warmup_steps = warmup_steps | |
elif warmup_ratio is not None: | |
self.warmup_steps = int(warmup_ratio * max_steps) | |
else: | |
self.warmup_steps = 0 | |
self.min_lr = min_lr | |
super().__init__(optimizer, last_epoch) | |
def get_lr(self): | |
if not self._get_lr_called_within_step: | |
warnings.warn( | |
"To get the last learning rate computed " | |
"by the scheduler, please use `get_last_lr()`.", | |
UserWarning, | |
stacklevel=2) | |
step = max(1, self.last_epoch) | |
for initial_lr in self.base_lrs: | |
if initial_lr < self.min_lr: | |
raise ValueError( | |
f"{self} received an initial learning rate " | |
f"that was lower than the minimum learning rate.") | |
new_lrs = [ | |
self._noam_annealing(initial_lr=initial_lr, step=step) | |
for initial_lr in self.base_lrs | |
] | |
return new_lrs | |
def _noam_annealing(self, initial_lr, step): | |
if self.warmup_steps > 0: | |
mult = self._normalize * min(step**(-0.5), | |
step * (self.warmup_steps**(-1.5))) | |
else: | |
mult = self._normalize * step**(-0.5) | |
out_lr = initial_lr * mult | |
if step > self.warmup_steps: | |
out_lr = max(out_lr, self.min_lr) | |
return out_lr | |
class NoamHoldAnnealing(WarmupHoldPolicy): | |
def __init__(self, | |
optimizer, | |
*, | |
max_steps, | |
decay_rate=0.5, | |
min_lr=0.0, | |
last_epoch=-1, | |
**kwargs): | |
""" | |
From Nemo: | |
Implementation of the Noam Hold Annealing policy | |
from the SqueezeFormer paper. | |
Unlike NoamAnnealing, the peak learning rate | |
can be explicitly set for this scheduler. | |
The schedule first performs linear warmup, | |
then holds the peak LR, then decays with some schedule for | |
the remainder of the steps. | |
Therefore the min-lr is still dependent | |
on the hyper parameters selected. | |
It's schedule is determined by three factors- | |
Warmup Steps: Initial stage, where linear warmup | |
occurs uptil the peak LR is reached. Unlike NoamAnnealing, | |
the peak LR is explicitly stated here instead of a scaling factor. | |
Hold Steps: Intermediate stage, where the peak LR | |
is maintained for some number of steps. In this region, | |
the high peak LR allows the model to converge faster | |
if training is stable. However the high LR | |
may also cause instability during training. | |
Should usually be a significant fraction of training | |
steps (around 30-40% of the entire training steps). | |
Decay Steps: Final stage, where the LR rapidly decays | |
with some scaling rate (set by decay rate). | |
To attain Noam decay, use 0.5, | |
for Squeezeformer recommended decay, use 1.0. | |
The fast decay after prolonged high LR during | |
hold phase allows for rapid convergence. | |
References: | |
- [Squeezeformer: | |
An Efficient Transformer for Automatic Speech Recognition] | |
(https://arxiv.org/abs/2206.00888) | |
Args: | |
optimizer: Pytorch compatible Optimizer object. | |
warmup_steps: Number of training steps in warmup stage | |
warmup_ratio: Ratio of warmup steps to total steps | |
hold_steps: Number of training steps to | |
hold the learning rate after warm up | |
hold_ratio: Ratio of hold steps to total steps | |
max_steps: Total number of steps while training or `None` for | |
infinite training | |
decay_rate: Float value describing the polynomial decay | |
after the hold period. Default value | |
of 0.5 corresponds to Noam decay. | |
min_lr: Minimum learning rate. | |
""" | |
self.decay_rate = decay_rate | |
super().__init__(optimizer=optimizer, | |
max_steps=max_steps, | |
last_epoch=last_epoch, | |
min_lr=min_lr, | |
**kwargs) | |
def _get_lr(self, step): | |
if self.warmup_steps is None or self.warmup_steps == 0: | |
raise ValueError( | |
"Noam scheduler cannot be used without warmup steps") | |
if self.hold_steps > 0: | |
hold_steps = self.hold_steps - self.warmup_steps | |
else: | |
hold_steps = 0 | |
new_lrs = [ | |
_noam_hold_annealing( | |
initial_lr, | |
step=step, | |
warmup_steps=self.warmup_steps, | |
hold_steps=hold_steps, | |
decay_rate=self.decay_rate, | |
min_lr=self.min_lr, | |
) for initial_lr in self.base_lrs | |
] | |
return new_lrs | |
def set_step(self, step: int): | |
self.last_epoch = step | |
class ConstantLR(_LRScheduler): | |
"""The ConstantLR scheduler | |
This scheduler keeps a constant lr | |
""" | |
def __init__( | |
self, | |
optimizer: torch.optim.Optimizer, | |
): | |
# __init__() must be invoked before setting field | |
# because step() is also invoked in __init__() | |
super().__init__(optimizer) | |
def get_lr(self): | |
return self.base_lrs | |
def set_step(self, step: int): | |
self.last_epoch = step | |