tf.keras.metrics.BinaryCrossentropy
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Computes the crossentropy metric between the labels and predictions.
tf.keras.metrics.BinaryCrossentropy(
name='binary_crossentropy', dtype=None, from_logits=False, label_smoothing=0
)
This is the crossentropy metric class to be used when there are only two
label classes (0 and 1).
Usage:
m = tf.keras.metrics.BinaryCrossentropy()
m.update_state([1., 0., 1., 0.], [1., 1., 1., 0.])
# EPSILON = 1e-7, y = y_true, y` = y_pred, Y_MAX = 0.9999999
# y` = clip_ops.clip_by_value(output, EPSILON, 1. - EPSILON)
# y` = [Y_MAX, Y_MAX, Y_MAX, EPSILON]
# Metric = -(y log(y` + EPSILON) + (1 - y) log(1 - y` + EPSILON))
# = [-log(Y_MAX + EPSILON), -log(1 - Y_MAX + EPSILON),
# -log(Y_MAX + EPSILON), -log(1)]
# = [(0 + 15.33) / 2, (0 + 0) / 2]
# Reduced metric = 7.665 / 2
print('Final result: ', m.result().numpy()) # Final result: 3.833
Usage with tf.keras API:
model = tf.keras.Model(inputs, outputs)
model.compile(
'sgd',
loss='mse',
metrics=[tf.keras.metrics.BinaryCrossentropy()])
Args |
|---|
name
|
(Optional) string name of the metric instance.
|
dtype
|
(Optional) data type of the metric result.
|
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"
|
Methods
reset_states
View source
reset_states()
Resets all of the metric state variables.
This function is called between epochs/steps,
when a metric is evaluated during training.
result
View source
result()
Computes and returns the metric value tensor.
Result computation is an idempotent operation that simply calculates the
metric value using the state variables.
update_state
View source
update_state(
y_true, y_pred, sample_weight=None
)
Accumulates metric statistics.
y_true and y_pred should have the same shape.
| Args |
|---|
y_true
|
The ground truth values.
|
y_pred
|
The predicted values.
|
sample_weight
|
Optional weighting of each example. Defaults to 1. Can be
a Tensor whose rank is either 0, or the same rank as y_true,
and must be broadcastable to y_true.
|
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Last updated 2020-10-01 UTC.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2020-10-01 UTC."],[],[],null,["# tf.keras.metrics.BinaryCrossentropy\n\n\u003cbr /\u003e\n\n|---------------------------------------------------------------------------------------------|------------------------------------------------------------------------------------------------------------------------------|\n| [TensorFlow 1 version](/versions/r1.15/api_docs/python/tf/keras/metrics/BinaryCrossentropy) | [View source on GitHub](https://github.com/tensorflow/tensorflow/blob/v2.0.0/tensorflow/python/keras/metrics.py#L2493-L2552) |\n\nComputes the crossentropy metric between the labels and predictions.\n\n#### View aliases\n\n\n**Main aliases**\n\n[`tf.metrics.BinaryCrossentropy`](/api_docs/python/tf/keras/metrics/BinaryCrossentropy)\n**Compat aliases for migration**\n\nSee\n[Migration guide](https://www.tensorflow.org/guide/migrate) for\nmore details.\n\n[`tf.compat.v1.keras.metrics.BinaryCrossentropy`](/api_docs/python/tf/keras/metrics/BinaryCrossentropy)\n\n\u003cbr /\u003e\n\n tf.keras.metrics.BinaryCrossentropy(\n name='binary_crossentropy', dtype=None, from_logits=False, label_smoothing=0\n )\n\nThis is the crossentropy metric class to be used when there are only two\nlabel classes (0 and 1).\n\n#### Usage:\n\n m = tf.keras.metrics.BinaryCrossentropy()\n m.update_state([1., 0., 1., 0.], [1., 1., 1., 0.])\n\n # EPSILON = 1e-7, y = y_true, y` = y_pred, Y_MAX = 0.9999999\n # y` = clip_ops.clip_by_value(output, EPSILON, 1. - EPSILON)\n # y` = [Y_MAX, Y_MAX, Y_MAX, EPSILON]\n\n # Metric = -(y log(y` + EPSILON) + (1 - y) log(1 - y` + EPSILON))\n # = [-log(Y_MAX + EPSILON), -log(1 - Y_MAX + EPSILON),\n # -log(Y_MAX + EPSILON), -log(1)]\n # = [(0 + 15.33) / 2, (0 + 0) / 2]\n # Reduced metric = 7.665 / 2\n\n print('Final result: ', m.result().numpy()) # Final result: 3.833\n\nUsage with tf.keras API: \n\n model = tf.keras.Model(inputs, outputs)\n model.compile(\n 'sgd',\n loss='mse',\n metrics=[tf.keras.metrics.BinaryCrossentropy()])\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Args ---- ||\n|-------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `name` | (Optional) string name of the metric instance. |\n| `dtype` | (Optional) data type of the metric result. |\n| `from_logits` | (Optional )Whether output is expected to be a logits tensor. By default, we consider that output encodes a probability distribution. |\n| `label_smoothing` | (Optional) Float in \\[0, 1\\]. When \\\u003e 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`\" |\n\n\u003cbr /\u003e\n\nMethods\n-------\n\n### `reset_states`\n\n[View source](https://github.com/tensorflow/tensorflow/blob/v2.0.0/tensorflow/python/keras/metrics.py#L203-L209) \n\n reset_states()\n\nResets all of the metric state variables.\n\nThis function is called between epochs/steps,\nwhen a metric is evaluated during training.\n\n### `result`\n\n[View source](https://github.com/tensorflow/tensorflow/blob/v2.0.0/tensorflow/python/keras/metrics.py#L361-L371) \n\n result()\n\nComputes and returns the metric value tensor.\n\nResult computation is an idempotent operation that simply calculates the\nmetric value using the state variables.\n\n### `update_state`\n\n[View source](https://github.com/tensorflow/tensorflow/blob/v2.0.0/tensorflow/python/keras/metrics.py#L558-L583) \n\n update_state(\n y_true, y_pred, sample_weight=None\n )\n\nAccumulates metric statistics.\n\n`y_true` and `y_pred` should have the same shape.\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Args ||\n|-----------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `y_true` | The ground truth values. |\n| `y_pred` | The predicted values. |\n| `sample_weight` | Optional weighting of each example. Defaults to 1. Can be a `Tensor` whose rank is either 0, or the same rank as `y_true`, and must be broadcastable to `y_true`. |\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Returns ||\n|---|---|\n| Update op. ||\n\n\u003cbr /\u003e"]]
TensorFlow 1 version
View source on GitHub