Constructs symbolic derivatives of sum of `ys`

w.r.t. x in `xs`

.

tf.compat.v2.gradients( ys, xs, grad_ys=None, name='gradients', gate_gradients=False, aggregation_method=None, stop_gradients=None, unconnected_gradients=tf.UnconnectedGradients.NONE )

`ys`

and `xs`

are each a `Tensor`

or a list of tensors. `grad_ys`

is a list of `Tensor`

, holding the gradients received by the `ys`

. The list must be the same length as `ys`

.

`gradients()`

adds ops to the graph to output the derivatives of `ys`

with respect to `xs`

. It returns a list of `Tensor`

of length `len(xs)`

where each tensor is the `sum(dy/dx)`

for y in `ys`

.

`grad_ys`

is a list of tensors of the same length as `ys`

that holds the initial gradients for each y in `ys`

. When `grad_ys`

is None, we fill in a tensor of '1's of the shape of y for each y in `ys`

. A user can provide their own initial `grad_ys`

to compute the derivatives using a different initial gradient for each y (e.g., if one wanted to weight the gradient differently for each value in each y).

`stop_gradients`

is a `Tensor`

or a list of tensors to be considered constant with respect to all `xs`

. These tensors will not be backpropagated through, as though they had been explicitly disconnected using `stop_gradient`

. Among other things, this allows computation of partial derivatives as opposed to total derivatives. For example:

a = tf.constant(0.) b = 2 * a g = tf.gradients(a + b, [a, b], stop_gradients=[a, b])

Here the partial derivatives `g`

evaluate to `[1.0, 1.0]`

, compared to the total derivatives `tf.gradients(a + b, [a, b])`

, which take into account the influence of `a`

on `b`

and evaluate to `[3.0, 1.0]`

. Note that the above is equivalent to:

a = tf.stop_gradient(tf.constant(0.)) b = tf.stop_gradient(2 * a) g = tf.gradients(a + b, [a, b])

`stop_gradients`

provides a way of stopping gradient after the graph has already been constructed, as compared to `tf.stop_gradient`

which is used during graph construction. When the two approaches are combined, backpropagation stops at both `tf.stop_gradient`

nodes and nodes in `stop_gradients`

, whichever is encountered first.

All integer tensors are considered constant with respect to all `xs`

, as if they were included in `stop_gradients`

.

`unconnected_gradients`

determines the value returned for each x in xs if it is unconnected in the graph to ys. By default this is None to safeguard against errors. Mathematically these gradients are zero which can be requested using the `'zero'`

option. `tf.UnconnectedGradients`

provides the following options and behaviors:

a = tf.ones([1, 2]) b = tf.ones([3, 1]) g1 = tf.gradients([b], [a], unnconnected_gradients='none') sess.run(g1) # [None] g2 = tf.gradients([b], [a], unconnected_gradients='zero') sess.run(g2) # [array([[0., 0.]], dtype=float32)]

Args | |
---|---|

`ys` | A `Tensor` or list of tensors to be differentiated. |

`xs` | A `Tensor` or list of tensors to be used for differentiation. |

`grad_ys` | Optional. A `Tensor` or list of tensors the same size as `ys` and holding the gradients computed for each y in `ys` . |

`name` | Optional name to use for grouping all the gradient ops together. defaults to 'gradients'. |

`gate_gradients` | If True, add a tuple around the gradients returned for an operations. This avoids some race conditions. |

`aggregation_method` | Specifies the method used to combine gradient terms. Accepted values are constants defined in the class `AggregationMethod` . |

`stop_gradients` | Optional. A `Tensor` or list of tensors not to differentiate through. |

`unconnected_gradients` | Optional. Specifies the gradient value returned when the given input tensors are unconnected. Accepted values are constants defined in the class `tf.UnconnectedGradients` and the default value is `none` . |

Returns | |
---|---|

A list of `sum(dy/dx)` for each x in `xs` . |

Raises | |
---|---|

`LookupError` | if one of the operations between `x` and `y` does not have a registered gradient function. |

`ValueError` | if the arguments are invalid. |

`RuntimeError` | if called in Eager mode. |

© 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/r1.15/api_docs/python/tf/compat/v2/gradients