tf.mixed_precision.experimental.LossScale

Loss scale base class.

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Main aliases

tf.train.experimental.LossScale

Compat aliases for migration

tf.compat.v1.mixed_precision.experimental.LossScale, tf.compat.v1.train.experimental.LossScale, tf.compat.v2.mixed_precision.experimental.LossScale, tf.compat.v2.train.experimental.LossScale

tf.mixed_precision.experimental.LossScale()

Loss scaling is a process that multiplies the loss by a multiplier called the loss scale, and divides each gradient by the same multiplier. The pseudocode for this process is:

loss = ...
loss *= loss_scale
grads = gradients(loss, vars)
grads /= loss_scale

Mathematically, loss scaling has no effect, but can help avoid numerical underflow in intermediate gradients when float16 tensors are used for mixed precision training. By multiplying the loss, each intermediate gradient will have the same multiplier applied.

Instances of this class represent a loss scale. Calling instances of this class returns the loss scale as a scalar float32 tensor, while method update() updates the loss scale depending on the values of the gradients. Optimizers use instances of this class to scale loss and gradients.

Methods

`call`

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__call__()

Returns the current loss scale as a scalar float32 tensor.

`from_config`

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@classmethod
from_config(
    config
)

Creates the LossScale from its config.

`get_config`

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get_config()

Returns the config of this loss scale.

`update`

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update(
    grads
)

Updates the value of the loss scale.

The loss scale will be potentially updated, based on the value of grads. The tensor returned by calling this class is only updated when this function is evaluated.

In eager mode, this directly updates the loss scale, so that calling __call__ will return the newly updated loss scale. In graph mode, this returns an op that, when evaluated, updates the loss scale.

This function also returns a should_apply_gradients bool. If False, gradients should not be applied to the variables that step, as nonfinite gradients were found, and the loss scale has been be updated to reduce the chance of finding nonfinite gradients in the next step. Some loss scale classes will always return True, as they cannot adjust themselves in response to nonfinite gradients.

When a DistributionStrategy is used, this function may only be called in a cross-replica context.

Args:

grads: A nested structure of unscaled gradients, each which is the gradient of the loss with respect to a weight. The gradients should have already been divided by the loss scale being before passed to this function. 'None' gradients are accepted, and are ignored.

Returns:

update_op: In eager mode, None. In graph mode, an op to update the loss scale.
should_apply_gradients: Either a bool or a scalar boolean tensor. If False, the caller should skip applying grads to the variables this step.