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clr.py
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clr.py
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# temporary file until https://github.com/pytorch/pytorch/pull/2016 is merged (hopefully 0.5)
import numpy as np
from torch.optim import Optimizer
class CyclicLR(object):
"""Sets the learning rate of each parameter group according to
cyclical learning rate policy (CLR). The policy cycles the learning
rate between two boundaries with a constant frequency, as detailed in
the paper `Cyclical Learning Rates for Training Neural Networks`_.
The distance between the two boundaries can be scaled on a per-iteration
or per-cycle basis.
Cyclical learning rate policy changes the learning rate after every batch.
`batch_step` should be called after a batch has been used for training.
To resume training, save `last_batch_iteration` and use it to instantiate `CycleLR`.
This class has three built-in policies, as put forth in the paper:
"triangular":
A basic triangular cycle w/ no amplitude scaling.
"triangular2":
A basic triangular cycle that scales initial amplitude by half each cycle.
"exp_range":
A cycle that scales initial amplitude by gamma**(cycle iterations) at each
cycle iteration.
This implementation was adapted from the github repo: `bckenstler/CLR`_
Args:
optimizer (Optimizer): Wrapped optimizer.
base_lr (float or list): Initial learning rate which is the
lower boundary in the cycle for eachparam groups.
Default: 0.001
max_lr (float or list): Upper boundaries in the cycle for
each parameter group. Functionally,
it defines the cycle amplitude (max_lr - base_lr).
The lr at any cycle is the sum of base_lr
and some scaling of the amplitude; therefore
max_lr may not actually be reached depending on
scaling function. Default: 0.006
step_size (int): Number of training iterations per
half cycle. Authors suggest setting step_size
2-8 x training iterations in epoch. Default: 2000
mode (str): One of {triangular, triangular2, exp_range}.
Values correspond to policies detailed above.
If scale_fn is not None, this argument is ignored.
Default: 'triangular'
gamma (float): Constant in 'exp_range' scaling function:
gamma**(cycle iterations)
Default: 1.0
scale_fn (function): Custom scaling policy defined by a single
argument lambda function, where
0 <= scale_fn(x) <= 1 for all x >= 0.
mode paramater is ignored
Default: None
scale_mode (str): {'cycle', 'iterations'}.
Defines whether scale_fn is evaluated on
cycle number or cycle iterations (training
iterations since start of cycle).
Default: 'cycle'
last_batch_iteration (int): The index of the last batch. Default: -1
Example:
>>> optimizer = torch.optim.SGD(model.parameters(), lr=0.1, momentum=0.9)
>>> scheduler = torch.optim.CyclicLR(optimizer)
>>> data_loader = torch.utils.data.DataLoader(...)
>>> for epoch in range(10):
>>> for batch in data_loader:
>>> scheduler.batch_step()
>>> train_batch(...)
.. _Cyclical Learning Rates for Training Neural Networks: https://arxiv.org/abs/1506.01186
.. _bckenstler/CLR: https://github.com/bckenstler/CLR
"""
def __init__(self, optimizer, base_lr=1e-3, max_lr=6e-3,
step_size=2000, mode='triangular', gamma=1.,
scale_fn=None, scale_mode='cycle', last_batch_iteration=-1):
if not isinstance(optimizer, Optimizer):
raise TypeError('{} is not an Optimizer'.format(
type(optimizer).__name__))
self.optimizer = optimizer
if isinstance(base_lr, list) or isinstance(base_lr, tuple):
if len(base_lr) != len(optimizer.param_groups):
raise ValueError("expected {} base_lr, got {}".format(
len(optimizer.param_groups), len(base_lr)))
self.base_lrs = list(base_lr)
else:
self.base_lrs = [base_lr] * len(optimizer.param_groups)
if isinstance(max_lr, list) or isinstance(max_lr, tuple):
if len(max_lr) != len(optimizer.param_groups):
raise ValueError("expected {} max_lr, got {}".format(
len(optimizer.param_groups), len(max_lr)))
self.max_lrs = list(max_lr)
else:
self.max_lrs = [max_lr] * len(optimizer.param_groups)
self.step_size = step_size
if mode not in ['triangular', 'triangular2', 'exp_range'] \
and scale_fn is None:
raise ValueError('mode is invalid and scale_fn is None')
self.mode = mode
self.gamma = gamma
if scale_fn is None:
if self.mode == 'triangular':
self.scale_fn = self._triangular_scale_fn
self.scale_mode = 'cycle'
elif self.mode == 'triangular2':
self.scale_fn = self._triangular2_scale_fn
self.scale_mode = 'cycle'
elif self.mode == 'exp_range':
self.scale_fn = self._exp_range_scale_fn
self.scale_mode = 'iterations'
else:
self.scale_fn = scale_fn
self.scale_mode = scale_mode
self.batch_step(last_batch_iteration + 1)
self.last_batch_iteration = last_batch_iteration
def batch_step(self, batch_iteration=None):
if batch_iteration is None:
batch_iteration = self.last_batch_iteration + 1
self.last_batch_iteration = batch_iteration
for param_group, lr in zip(self.optimizer.param_groups, self.get_lr()):
param_group['lr'] = lr
def _triangular_scale_fn(self, x):
return 1.
def _triangular2_scale_fn(self, x):
return 1 / (2. ** (x - 1))
def _exp_range_scale_fn(self, x):
return self.gamma ** (x)
def get_lr(self):
step_size = float(self.step_size)
cycle = np.floor(1 + self.last_batch_iteration / (2 * step_size))
x = np.abs(self.last_batch_iteration / step_size - 2 * cycle + 1)
lrs = []
param_lrs = zip(self.optimizer.param_groups, self.base_lrs, self.max_lrs)
for param_group, base_lr, max_lr in param_lrs:
base_height = (max_lr - base_lr) * np.maximum(0, (1 - x))
if self.scale_mode == 'cycle':
lr = base_lr + base_height * self.scale_fn(cycle)
else:
lr = base_lr + base_height * self.scale_fn(self.last_batch_iteration)
lrs.append(lr)
return lrs