mindspore.nn.NaturalExpDecayLR

class mindspore.nn.NaturalExpDecayLR(learning_rate, decay_rate, decay_steps, is_stair=False)[source]

Calculates learning rate base on natural exponential decay function.

For current step, the formula of computing decayed learning rate is:

\[decayed\_learning\_rate= learning\_rate * e^{-decay\_rate * p}\]

Where :

\[p = \frac{current\_step}{decay\_steps}\]

If is_stair is True, the formula is :

\[p = floor(\frac{current\_step}{decay\_steps})\]

Parameters

learning_rate (float) – The initial value of learning rate.
decay_rate (float) – The decay rate.
decay_steps (int) – Number of steps to decay over.
is_stair (bool) – If true, learning rate is decayed once every decay_steps time. Default: False.

Inputs:

global_step (Tensor) - The current step number.

Outputs:

Tensor. The learning rate value for the current step with shape \(()\).

Raises

TypeError – If learning_rate or decay_rate is not a float.
TypeError – If decay_steps is not an int or is_stair is not a bool.
ValueError – If decay_steps is less than 1.
ValueError – If learning_rate or decay_rate is less than or equal to 0.

Supported Platforms:: Ascend GPU CPU

Examples

>>> import mindspore
>>> from mindspore import Tensor, nn
>>>
>>> learning_rate = 0.1
>>> decay_rate = 0.9
>>> decay_steps = 4
>>> global_step = Tensor(2, mindspore.int32)
>>> natural_exp_decay_lr = nn.NaturalExpDecayLR(learning_rate, decay_rate, decay_steps, True)
>>> result = natural_exp_decay_lr(global_step)
>>> print(result)
0.1