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Class RegressionHead
Creates a Head for regression using the mean_squared_error loss.
Inherits From: Head
Aliases:
The loss is the weighted sum over all input dimensions. Namely, if the input
labels have shape [batch_size, label_dimension], the loss is the weighted
sum over both batch_size and label_dimension.
The head expects logits with shape [D0, D1, ... DN, label_dimension].
In many applications, the shape is [batch_size, label_dimension].
The labels shape must match logits, namely
[D0, D1, ... DN, label_dimension]. If label_dimension=1, shape
[D0, D1, ... DN] is also supported.
If weight_column is specified, weights must be of shape
[D0, D1, ... DN], [D0, D1, ... DN, 1] or
[D0, D1, ... DN, label_dimension].
Supports custom loss_fn. loss_fn takes (labels, logits) or
(labels, logits, features, loss_reduction) as arguments and returns
unreduced loss with shape [D0, D1, ... DN, label_dimension].
Also supports custom inverse_link_fn, also known as 'mean function'.
inverse_link_fn is only used in PREDICT mode. It takes logits as
argument and returns predicted values. This function is the inverse of the
link function defined in
https://en.wikipedia.org/wiki/Generalized_linear_model#Link_function
Namely, for poisson regression, set inverse_link_fn=tf.exp.
The head can be used with a canned estimator. Example:
my_head = tf.estimator.RegressionHead()
my_estimator = tf.estimator.DNNEstimator(
head=my_head,
hidden_units=...,
feature_columns=...)
It can also be used with a custom model_fn. Example:
def _my_model_fn(features, labels, mode):
my_head = tf.estimator.RegressionHead()
logits = tf.keras.Model(...)(features)
return my_head.create_estimator_spec(
features=features,
mode=mode,
labels=labels,
optimizer=tf.keras.optimizers.Adagrad(lr=0.1),
logits=logits)
my_estimator = tf.estimator.Estimator(model_fn=_my_model_fn)
Args:
weight_column: A string or aNumericColumncreated bytf.feature_column.numeric_columndefining feature column representing weights. It is used to down weight or boost examples during training. It will be multiplied by the loss of the example.label_dimension: Number of regression labels per example. This is the size of the last dimension of the labelsTensor(typically, this has shape[batch_size, label_dimension]).loss_reduction: One oftf.losses.ReductionexceptNONE. Decides how to reduce training loss over batch and label dimension. Defaults toSUM_OVER_BATCH_SIZE, namely weighted sum of losses divided bybatch size * label_dimension.loss_fn: Optional loss function. Defaults tomean_squared_error.inverse_link_fn: Optional inverse link function, also known as 'mean function'. Defaults to identity.name: name of the head. If provided, summary and metrics keys will be suffixed by"/" + name. Also used asname_scopewhen creating ops.
__init__
__init__(
label_dimension=1,
weight_column=None,
loss_reduction=losses_utils.ReductionV2.SUM_OVER_BATCH_SIZE,
loss_fn=None,
inverse_link_fn=None,
name=None
)
Initialize self. See help(type(self)) for accurate signature.
Properties
logits_dimension
See base_head.Head for details.
loss_reduction
See base_head.Head for details.
name
See base_head.Head for details.
Methods
tf.estimator.RegressionHead.create_estimator_spec
create_estimator_spec(
features,
mode,
logits,
labels=None,
optimizer=None,
trainable_variables=None,
train_op_fn=None,
update_ops=None,
regularization_losses=None
)
Returns EstimatorSpec that a model_fn can return.
It is recommended to pass all args via name.
Args:
features: Inputdictmapping string feature names toTensororSparseTensorobjects containing the values for that feature in a minibatch. Often to be used to fetch example-weight tensor.mode: Estimator'sModeKeys.logits: LogitsTensorto be used by the head.labels: LabelsTensor, ordictmapping string label names toTensorobjects of the label values.optimizer: Antf.keras.optimizers.Optimizerinstance to optimize the loss in TRAIN mode. Namely, setstrain_op = optimizer.get_updates(loss, trainable_variables), which updates variables to minimizeloss.trainable_variables: A list or tuple ofVariableobjects to update to minimizeloss. In Tensorflow 1.x, by default these are the list of variables collected in the graph under the keyGraphKeys.TRAINABLE_VARIABLES. As Tensorflow 2.x doesn't have collections and GraphKeys, trainable_variables need to be passed explicitly here.train_op_fn: Function that takes a scalar lossTensorand returns an op to optimize the model with the loss in TRAIN mode. Used ifoptimizerisNone. Exactly one oftrain_op_fnandoptimizermust be set in TRAIN mode. By default, it isNonein other modes. If you want to optimize loss yourself, you can passlambda _: tf.no_op()and then useEstimatorSpec.lossto compute and apply gradients.update_ops: A list or tuple of update ops to be run at training time. For example, layers such as BatchNormalization create mean and variance update ops that need to be run at training time. In Tensorflow 1.x, these are thrown into an UPDATE_OPS collection. As Tensorflow 2.x doesn't have collections, update_ops need to be passed explicitly here.regularization_losses: A list of additional scalar losses to be added to the training loss, such as regularization losses.
Returns:
EstimatorSpec.
tf.estimator.RegressionHead.loss
loss(
labels,
logits,
features=None,
mode=None,
regularization_losses=None
)
Return predictions based on keys. See base_head.Head for details.
tf.estimator.RegressionHead.metrics
metrics(regularization_losses=None)
Creates metrics. See base_head.Head for details.
tf.estimator.RegressionHead.predictions
predictions(logits)
Return predictions based on keys. See base_head.Head for details.
Args:
logits: logitsTensorwith shape[D0, D1, ... DN, logits_dimension]. For many applications, the shape is[batch_size, logits_dimension].
Returns:
A dict of predictions.
tf.estimator.RegressionHead.update_metrics
update_metrics(
eval_metrics,
features,
logits,
labels,
regularization_losses=None
)
Updates eval metrics. See base_head.Head for details.