Computes the mean of absolute difference between labels and predictions.
loss = abs(labels - predictions)
Standalone usage:
Operand<TFloat32> labels = tf.constant(new float[][] { {0.f, 1.f}, {0.f, 0.f} }); Operand<TFloat32> predictions = tf.constant(new float[][] { {1.f, 1.f}, {1.f, 0.f} }); MeanAbsoluteError mae = new MeanAbsoluteError(tf); Operand<TFloat32> result = mae.call(labels, predictions); // produces 0.5f
Calling with sample weight:
Operand<TFloat32> sampleWeight = tf.constant(new float[] {0.7f, 0.3f}); Operand<TFloat32> result = mae.call(labels, predictions, sampleWeight); // produces 0.25f
Using SUM
reduction type:
MeanAbsoluteError mae = new MeanAbsoluteError(tf, Reduction.SUM); Operand<TFloat32> result = mae.call(labels, predictions); // produces 1.0f
Using NONE
reduction type:
MeanAbsoluteError mae = new MeanAbsoluteError(tf, Reduction.NONE); Operand<TFloat32> result = mae.call(labels, predictions); // produces [0.5f, 0.5f]
Inherited Fields
Public Constructors
MeanAbsoluteError(Ops tf)
Creates a MeanAbsoluteError Loss using
getSimpleName() as the loss name and a
Loss Reduction of REDUCTION_DEFAULT |
|
MeanAbsoluteError(Ops tf, Reduction reduction)
Creates a MeanAbsoluteError Loss using
getSimpleName() as the loss name |
|
Public Methods
<T extends TNumber> Operand<T> |
Inherited Methods
Public Constructors
public MeanAbsoluteError (Ops tf)
Creates a MeanAbsoluteError Loss using getSimpleName()
as the loss name and a
Loss Reduction of REDUCTION_DEFAULT
Parameters
tf | the TensorFlow Ops |
---|
public MeanAbsoluteError (Ops tf, Reduction reduction)
Creates a MeanAbsoluteError Loss using getSimpleName()
as the loss name
Parameters
tf | the TensorFlow Ops |
---|---|
reduction | Type of Reduction to apply to the loss. |
public MeanAbsoluteError (Ops tf, String name, Reduction reduction)
Creates a MeanAbsoluteError
Parameters
tf | the TensorFlow Ops |
---|---|
name | the name of the loss |
reduction | Type of Reduction to apply to the loss. |
Public Methods
public Operand<T> call (Operand<? extends TNumber> labels, Operand<T> predictions, Operand<T> sampleWeights)
Generates an Operand that calculates the loss.
Parameters
labels | the truth values or labels |
---|---|
predictions | the predictions |
sampleWeights | Optional sampleWeights acts as a coefficient for the loss. If a scalar is provided, then the loss is simply scaled by the given value. If SampleWeights is a tensor of size [batch_size], then the total loss for each sample of the batch is rescaled by the corresponding element in the SampleWeights vector. If the shape of SampleWeights is [batch_size, d0, .. dN-1] (or can be broadcast to this shape), then each loss element of predictions is scaled by the corresponding value of SampleWeights. (Note on dN-1: all loss functions reduce by 1 dimension, usually axis=-1.) |
Returns
- the loss