metric_categorical_crossentropy: Computes the crossentropy metric between the labels and...
In keras: R Interface to 'Keras'
metric_categorical_crossentropy R Documentation
Computes the crossentropy metric between the labels and predictions
Description
Computes the crossentropy metric between the labels and predictions
Usage
metric_categorical_crossentropy(
y_true,
y_pred,
from_logits = FALSE,
label_smoothing = 0,
axis = -1L,
...,
name = "categorical_crossentropy",
dtype = NULL
)
Arguments
y_true
Tensor of true targets.
y_pred
Tensor of predicted targets.
from_logits
(Optional) Whether output is expected to be a logits tensor.
By default, we consider that output encodes a probability distribution.
label_smoothing
(Optional) Float in [0, 1]. When > 0, label values are
smoothed, meaning the confidence on label values are relaxed. e.g.
label_smoothing=0.2 means that we will use a value of 0.1 for label
0 and 0.9 for label 1"
axis
(Optional) (1-based) Defaults to -1. The dimension along which the metric is computed.
...
Passed on to the underlying metric. Used for forwards and backwards compatibility.
name
(Optional) string name of the metric instance.
dtype
(Optional) data type of the metric result.
Details
This is the crossentropy metric class to be used when there are multiple
label classes (2 or more). Here we assume that labels are given as a one_hot
representation. eg., When labels values are c(2, 0, 1):
y_true = rbind(c(0, 0, 1),
c(1, 0, 0),
c(0, 1, 0))`
Value
If y_true and y_pred are missing, a (subclassed) Metric
instance is returned. The Metric object can be passed directly to
compile(metrics = ) or used as a standalone object. See ?Metric for
example usage.
Alternatively, if called with y_true and y_pred arguments, then the
computed case-wise values for the mini-batch are returned directly.
See Also
Other metrics:
custom_metric(),
metric_accuracy(),
metric_auc(),
metric_binary_accuracy(),
metric_binary_crossentropy(),
metric_categorical_accuracy(),
metric_categorical_hinge(),
metric_cosine_similarity(),
metric_false_negatives(),
metric_false_positives(),
metric_hinge(),
metric_kullback_leibler_divergence(),
metric_logcosh_error(),
metric_mean_absolute_error(),
metric_mean_absolute_percentage_error(),
metric_mean_iou(),
metric_mean_relative_error(),
metric_mean_squared_error(),
metric_mean_squared_logarithmic_error(),
metric_mean_tensor(),
metric_mean_wrapper(),
metric_mean(),
metric_poisson(),
metric_precision_at_recall(),
metric_precision(),
metric_recall_at_precision(),
metric_recall(),
metric_root_mean_squared_error(),
metric_sensitivity_at_specificity(),
metric_sparse_categorical_accuracy(),
metric_sparse_categorical_crossentropy(),
metric_sparse_top_k_categorical_accuracy(),
metric_specificity_at_sensitivity(),
metric_squared_hinge(),
metric_sum(),
metric_top_k_categorical_accuracy(),
metric_true_negatives(),
metric_true_positives()
keras documentation built on Aug. 16, 2023, 1:07 a.m.
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| metric_categorical_crossentropy | R Documentation |
Computes the crossentropy metric between the labels and predictions
Description
Computes the crossentropy metric between the labels and predictions
Usage
metric_categorical_crossentropy(
y_true,
y_pred,
from_logits = FALSE,
label_smoothing = 0,
axis = -1L,
...,
name = "categorical_crossentropy",
dtype = NULL
)
Arguments
y_true |
Tensor of true targets. |
y_pred |
Tensor of predicted targets. |
from_logits |
(Optional) Whether output is expected to be a logits tensor. By default, we consider that output encodes a probability distribution. |
label_smoothing |
(Optional) Float in |
axis |
(Optional) (1-based) Defaults to -1. The dimension along which the metric is computed. |
... |
Passed on to the underlying metric. Used for forwards and backwards compatibility. |
name |
(Optional) string name of the metric instance. |
dtype |
(Optional) data type of the metric result. |
Details
This is the crossentropy metric class to be used when there are multiple
label classes (2 or more). Here we assume that labels are given as a one_hot
representation. eg., When labels values are c(2, 0, 1):
y_true = rbind(c(0, 0, 1),
c(1, 0, 0),
c(0, 1, 0))`
Value
If y_true and y_pred are missing, a (subclassed) Metric
instance is returned. The Metric object can be passed directly to
compile(metrics = ) or used as a standalone object. See ?Metric for
example usage.
Alternatively, if called with y_true and y_pred arguments, then the
computed case-wise values for the mini-batch are returned directly.
See Also
Other metrics:
custom_metric(),
metric_accuracy(),
metric_auc(),
metric_binary_accuracy(),
metric_binary_crossentropy(),
metric_categorical_accuracy(),
metric_categorical_hinge(),
metric_cosine_similarity(),
metric_false_negatives(),
metric_false_positives(),
metric_hinge(),
metric_kullback_leibler_divergence(),
metric_logcosh_error(),
metric_mean_absolute_error(),
metric_mean_absolute_percentage_error(),
metric_mean_iou(),
metric_mean_relative_error(),
metric_mean_squared_error(),
metric_mean_squared_logarithmic_error(),
metric_mean_tensor(),
metric_mean_wrapper(),
metric_mean(),
metric_poisson(),
metric_precision_at_recall(),
metric_precision(),
metric_recall_at_precision(),
metric_recall(),
metric_root_mean_squared_error(),
metric_sensitivity_at_specificity(),
metric_sparse_categorical_accuracy(),
metric_sparse_categorical_crossentropy(),
metric_sparse_top_k_categorical_accuracy(),
metric_specificity_at_sensitivity(),
metric_squared_hinge(),
metric_sum(),
metric_top_k_categorical_accuracy(),
metric_true_negatives(),
metric_true_positives()
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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