tf.compat.v1.train.polynomial_decay
Applies a polynomial decay to the learning rate.
tf.compat.v1.train.polynomial_decay( learning_rate, global_step, decay_steps, end_learning_rate=0.0001, power=1.0, cycle=False, name=None )
It is commonly observed that a monotonically decreasing learning rate, whose degree of change is carefully chosen, results in a better performing model. This function applies a polynomial decay function to a provided initial learning_rate
to reach an end_learning_rate
in the given decay_steps
.
It requires a global_step
value to compute the decayed learning rate. You can just pass a TensorFlow variable that you increment at each training step.
The function returns the decayed learning rate. It is computed as:
global_step = min(global_step, decay_steps) decayed_learning_rate = (learning_rate - end_learning_rate) * (1 - global_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 global_steps
.
decay_steps = decay_steps * ceil(global_step / decay_steps) decayed_learning_rate = (learning_rate - end_learning_rate) * (1 - global_step / decay_steps) ^ (power) + end_learning_rate
Example: decay from 0.1 to 0.01 in 10000 steps using sqrt (i.e. power=0.5):
... global_step = tf.Variable(0, trainable=False) starter_learning_rate = 0.1 end_learning_rate = 0.01 decay_steps = 10000 learning_rate = tf.compat.v1.train.polynomial_decay(starter_learning_rate, global_step, decay_steps, end_learning_rate, power=0.5) # Passing global_step to minimize() will increment it at each step. learning_step = ( tf.compat.v1.train.GradientDescentOptimizer(learning_rate) .minimize(...my loss..., global_step=global_step) )
Args | |
---|---|
learning_rate | A scalar float32 or float64 Tensor or a Python number. The initial learning rate. |
global_step | A scalar int32 or int64 Tensor or a Python number. Global step to use for the decay computation. Must not be negative. |
decay_steps | A scalar int32 or int64 Tensor or a Python number. Must be positive. See the decay computation above. |
end_learning_rate | A scalar float32 or float64 Tensor or a Python number. The minimal end learning rate. |
power | A scalar float32 or float64 Tensor or a Python number. The power of the polynomial. Defaults to linear, 1.0. |
cycle | A boolean, whether or not it should cycle beyond decay_steps. |
name | String. Optional name of the operation. Defaults to 'PolynomialDecay'. |
Returns | |
---|---|
A scalar Tensor of the same type as learning_rate . The decayed learning rate. |
Raises | |
---|---|
ValueError | if global_step is not supplied. |
Eager Compatibility
When eager execution is enabled, this function returns a function which in turn returns the decayed learning rate Tensor. This can be useful for changing the learning rate value across different invocations of optimizer functions.
© 2020 The TensorFlow Authors. All rights reserved.
Licensed under the Creative Commons Attribution License 3.0.
Code samples licensed under the Apache 2.0 License.
https://www.tensorflow.org/versions/r2.4/api_docs/python/tf/compat/v1/train/polynomial_decay