CosineDecay
classtf_keras.optimizers.schedules.CosineDecay(
initial_learning_rate,
decay_steps,
alpha=0.0,
name=None,
warmup_target=None,
warmup_steps=0,
)
A LearningRateSchedule that uses a cosine decay with optional warmup.
See Loshchilov & Hutter, ICLR2016, SGDR: Stochastic Gradient Descent with Warm Restarts.
For the idea of a linear warmup of our learning rate, see Goyal et al..
When we begin training a model, we often want an initial increase in our
learning rate followed by a decay. If warmup_target
is an int, this
schedule applies a linear increase per optimizer step to our learning rate
from initial_learning_rate
to warmup_target
for a duration of
warmup_steps
. Afterwards, it applies a cosine decay function taking our
learning rate from warmup_target
to alpha
for a duration of
decay_steps
. If warmup_target
is None we skip warmup and our decay
will take our learning rate from initial_learning_rate
to
alpha x initial_learning_rate
. It requires a step
value to compute
the learning rate. You can just pass a TensorFlow variable that you
increment at each training step.
The schedule is a 1-arg callable that produces a warmup followed by a decayed learning rate when passed the current optimizer step. This can be useful for changing the learning rate value across different invocations of optimizer functions.
Our warmup is computed as:
def warmup_learning_rate(step):
completed_fraction = step / warmup_steps
total_delta = target_warmup - initial_learning_rate
return completed_fraction * total_delta + initial_learning_rate
And our decay is computed as:
if warmup_target is None:
initial_decay_lr = initial_learning_rate
else:
initial_decay_lr = warmup_target
def decayed_learning_rate(step):
step = min(step, decay_steps)
cosine_decay = 0.5 * (1 + cos(pi * step / decay_steps))
decayed = (1 - alpha) * cosine_decay + alpha
return initial_decay_lr * decayed
Example usage without warmup:
decay_steps = 1000
initial_learning_rate = 0.1
lr_decayed_fn = tf.keras.optimizers.schedules.CosineDecay(
initial_learning_rate, decay_steps)
Example usage with warmup:
decay_steps = 1000
initial_learning_rate = 0
warmup_steps = 1000
target_learning_rate = 0.1
lr_warmup_decayed_fn = tf.keras.optimizers.schedules.CosineDecay(
initial_learning_rate, decay_steps, warmup_target=target_learning_rate,
warmup_steps=warmup_steps
)
You can pass this schedule directly into a tf.keras.optimizers.Optimizer
as the learning rate. The learning rate schedule is also serializable and
deserializable using tf.keras.optimizers.schedules.serialize
and
tf.keras.optimizers.schedules.deserialize
.
Returns
A 1-arg callable learning rate schedule that takes the current optimizer
step and outputs the decayed learning rate, a scalar Tensor
of the same
type as initial_learning_rate
.