learning_rate_schedule_polynomial_decay: A 'LearningRateSchedule' that uses a polynomial decay...
In keras3: R Interface to 'Keras'
learning_rate_schedule_polynomial_decay R Documentation
A LearningRateSchedule that uses a polynomial decay schedule.
Description
It is commonly observed that a monotonically decreasing learning rate, whose
degree of change is carefully chosen, results in a better performing model.
This schedule applies a polynomial decay function to an optimizer step,
given a provided initial_learning_rate, to reach an end_learning_rate
in the given decay_steps.
It requires a step value to compute the decayed learning rate. You
can just pass a backend variable that you increment at each training
step.
The schedule is a 1-arg callable that produces 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.
It is computed as:
decayed_learning_rate <- function(step) {
step = min(step, decay_steps)
((initial_learning_rate - end_learning_rate) *
(1 - step / decay_steps) ^ (power)) +
end_learning_rate
}
If cycle is TRUE then a multiple of decay_steps is used, the first one
that is bigger than step.
decayed_learning_rate <- function(step) {
decay_steps = decay_steps * ceil(step / decay_steps)
((initial_learning_rate - end_learning_rate) *
(1 - step / decay_steps) ^ (power)) +
end_learning_rate
}
You can pass this schedule directly into a Optimizer
as the learning rate.
Usage
learning_rate_schedule_polynomial_decay(
initial_learning_rate,
decay_steps,
end_learning_rate = 1e-04,
power = 1,
cycle = FALSE,
name = "PolynomialDecay"
)
Arguments
initial_learning_rate
A float. The initial learning rate.
decay_steps
A integer. Must be positive. See the decay
computation above.
end_learning_rate
A float. The minimal end learning rate.
power
A float. The power of the polynomial. Defaults to
1.0.
cycle
A boolean, whether it should cycle beyond decay_steps.
name
String. Optional name of the operation. Defaults to
"PolynomialDecay".
Value
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.
Examples
Fit a model while decaying from 0.1 to 0.01 in 10000 steps using
sqrt (i.e. power=0.5):
...
starter_learning_rate <- 0.1
end_learning_rate <- 0.01
decay_steps <- 10000
learning_rate_fn <- learning_rate_schedule_polynomial_decay(
starter_learning_rate,
decay_steps,
end_learning_rate,
power=0.5)
model %>% compile(
optimizer = optimizer_sgd(learning_rate=learning_rate_fn),
loss = 'sparse_categorical_crossentropy',
metrics = 'accuracy'
)
model %>% fit(data, labels, epochs=5)
The learning rate schedule is also serializable and deserializable using
keras$optimizers$schedules$serialize and
keras$optimizers$schedules$deserialize.
See Also
Other optimizer learning rate schedules:
LearningRateSchedule()
learning_rate_schedule_cosine_decay()
learning_rate_schedule_cosine_decay_restarts()
learning_rate_schedule_exponential_decay()
learning_rate_schedule_inverse_time_decay()
learning_rate_schedule_piecewise_constant_decay()
keras3 documentation built on June 8, 2025, 1:36 p.m.
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| learning_rate_schedule_polynomial_decay | R Documentation |
A LearningRateSchedule that uses a polynomial decay schedule.
Description
It is commonly observed that a monotonically decreasing learning rate, whose
degree of change is carefully chosen, results in a better performing model.
This schedule applies a polynomial decay function to an optimizer step,
given a provided initial_learning_rate, to reach an end_learning_rate
in the given decay_steps.
It requires a step value to compute the decayed learning rate. You
can just pass a backend variable that you increment at each training
step.
The schedule is a 1-arg callable that produces 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. It is computed as:
decayed_learning_rate <- function(step) {
step = min(step, decay_steps)
((initial_learning_rate - end_learning_rate) *
(1 - step / decay_steps) ^ (power)) +
end_learning_rate
}
If cycle is TRUE then a multiple of decay_steps is used, the first one
that is bigger than step.
decayed_learning_rate <- function(step) {
decay_steps = decay_steps * ceil(step / decay_steps)
((initial_learning_rate - end_learning_rate) *
(1 - step / decay_steps) ^ (power)) +
end_learning_rate
}
You can pass this schedule directly into a Optimizer
as the learning rate.
Usage
learning_rate_schedule_polynomial_decay(
initial_learning_rate,
decay_steps,
end_learning_rate = 1e-04,
power = 1,
cycle = FALSE,
name = "PolynomialDecay"
)
Arguments
initial_learning_rate |
A float. The initial learning rate. |
decay_steps |
A integer. Must be positive. See the decay computation above. |
end_learning_rate |
A float. The minimal end learning rate. |
power |
A float. The power of the polynomial. Defaults to
|
cycle |
A boolean, whether it should cycle beyond decay_steps. |
name |
String. Optional name of the operation. Defaults to
|
Value
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.
Examples
Fit a model while decaying from 0.1 to 0.01 in 10000 steps using sqrt (i.e. power=0.5):
...
starter_learning_rate <- 0.1
end_learning_rate <- 0.01
decay_steps <- 10000
learning_rate_fn <- learning_rate_schedule_polynomial_decay(
starter_learning_rate,
decay_steps,
end_learning_rate,
power=0.5)
model %>% compile(
optimizer = optimizer_sgd(learning_rate=learning_rate_fn),
loss = 'sparse_categorical_crossentropy',
metrics = 'accuracy'
)
model %>% fit(data, labels, epochs=5)
The learning rate schedule is also serializable and deserializable using
keras$optimizers$schedules$serialize and
keras$optimizers$schedules$deserialize.
See Also
Other optimizer learning rate schedules:
LearningRateSchedule()
learning_rate_schedule_cosine_decay()
learning_rate_schedule_cosine_decay_restarts()
learning_rate_schedule_exponential_decay()
learning_rate_schedule_inverse_time_decay()
learning_rate_schedule_piecewise_constant_decay()
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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