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tf.contrib.kfac.fisher_factors.InverseProvidingFactor

Class InverseProvidingFactor

Inherits From: FisherFactor

Defined in tensorflow/contrib/kfac/python/ops/fisher_factors.py.

Base class for FisherFactors that maintain inverses explicitly.

This class explicitly calculates and stores inverses of covariance matrices provided by the underlying FisherFactor implementation. It is assumed that vectors can be represented as 2-D matrices.

Subclasses must implement the _compute_new_cov method, and the _var_scope and _cov_shape properties.

Properties

name

Methods

__init__

__init__()

Initialize self. See help(type(self)) for accurate signature.

get_cov

get_cov()

Get full covariance matrix.

Returns:

Tensor of shape [n, n]. Represents all parameter-parameter correlations captured by this FisherFactor.

get_cov_var

get_cov_var()

Get variable backing this FisherFactor.

May or may not be the same as self.get_cov()

Returns:

Variable of shape self._cov_shape.

get_eigendecomp

get_eigendecomp()

Creates or retrieves eigendecomposition of self._cov.

get_inverse

get_inverse(damping_func)

get_matpower

get_matpower(
    exp,
    damping_func
)

instantiate_cov_variables

instantiate_cov_variables()

Makes the internal cov variable(s).

instantiate_inv_variables

instantiate_inv_variables()

Makes the internal "inverse" variable(s).

left_multiply_matpower

left_multiply_matpower(
    x,
    exp,
    damping_func
)

Left multiplies 'x' by matrix power of this factor (w/ damping applied).

This calculation is essentially: (C + damping * I)exp * x where * is matrix-multiplication, is matrix power, I is the identity matrix, and C is the matrix represented by this factor.

x can represent either a matrix or a vector. For some factors, 'x' might represent a vector but actually be stored as a 2D matrix for convenience.

Args:

  • x: Tensor. Represents a single vector. Shape depends on implementation.
  • exp: float. The matrix exponent to use.
  • damping_func: A function that computes a 0-D Tensor or a float which will be the damping value used. i.e. damping = damping_func().

Returns:

Tensor of same shape as 'x' representing the result of the multiplication.

make_covariance_update_op

make_covariance_update_op(ema_decay)

Constructs and returns the covariance update Op.

Args:

  • ema_decay: The exponential moving average decay (float or Tensor).

Returns:

An Op for updating the covariance Variable referenced by _cov.

make_inverse_update_ops

make_inverse_update_ops()

Create and return update ops corresponding to registered computations.

register_inverse

register_inverse(damping_func)

register_matpower

register_matpower(
    exp,
    damping_func
)

Registers a matrix power to be maintained and served on demand.

This creates a variable and signals make_inverse_update_ops to make the corresponding update op. The variable can be read via the method get_matpower.

Args:

  • exp: float. The exponent to use in the matrix power.
  • damping_func: A function that computes a 0-D Tensor or a float which will be the damping value used. i.e. damping = damping_func().

right_multiply_matpower

right_multiply_matpower(
    x,
    exp,
    damping_func
)

Right multiplies 'x' by matrix power of this factor (w/ damping applied).

This calculation is essentially: x * (C + damping * I)exp where * is matrix-multiplication, is matrix power, I is the identity matrix, and C is the matrix represented by this factor.

Unlike left_multiply_matpower, x will always be a matrix.

Args:

  • x: Tensor. Represents a single vector. Shape depends on implementation.
  • exp: float. The matrix exponent to use.
  • damping_func: A function that computes a 0-D Tensor or a float which will be the damping value used. i.e. damping = damping_func().

Returns:

Tensor of same shape as 'x' representing the result of the multiplication.

© 2018 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/api_docs/python/tf/contrib/kfac/fisher_factors/InverseProvidingFactor