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categorical_crossentropy

categorical_crossentropy

Compute categorical crossentropy.

Note that if any of the y_pred values are exactly 0, this will result in a NaN output. If from_logits is False, then each entry of y_pred should sum to 1. If they don't sum to 1 then tf and torch backends will result in different numerical values.

This method can be used with TensorFlow tensors: 

true = tf.constant([[0, 1, 0], [1, 0, 0], [0, 0, 1]])
pred = tf.constant([[0.1, 0.8, 0.1], [0.9, 0.05, 0.05], [0.1, 0.2, 0.7]])
b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true)  # 0.228
b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true, average_loss=False)  # [0.223, 0.105, 0.356]

This method can be used with PyTorch tensors: 

true = torch.tensor([[0, 1, 0], [1, 0, 0], [0, 0, 1]])
pred = torch.tensor([[0.1, 0.8, 0.1], [0.9, 0.05, 0.05], [0.1, 0.2, 0.7]])
b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true)  # 0.228
b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true, average_loss=False)  # [0.223, 0.105, 0.356]

Parameters:

Name Type Description Default
y_pred Tensor

Prediction with a shape like (Batch, C). dtype: float32 or float16.

 required
y_true Tensor

Ground truth class labels with a shape like y_pred. dtype: int or float32 or float16.

 required
from_logits bool

Whether y_pred is from logits. If True, a sigmoid will be applied to the prediction.

 False
average_loss bool

Whether to average the element-wise loss.

 True

Returns:

Type Description
Tensor

The categorical crossentropy between y_pred and y_true. A scalar if average_loss is True, else a
Tensor

tensor with the shape (Batch).

Raises:

Type Description
AssertionError

If y_true or y_pred are unacceptable data types.
Source code in fastestimator\fastestimator\backend\categorical_crossentropy.py 
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def categorical_crossentropy(y_pred: Tensor, y_true: Tensor, from_logits: bool = False,
                             average_loss: bool = True) -> Tensor:
    """Compute categorical crossentropy.

    Note that if any of the `y_pred` values are exactly 0, this will result in a NaN output. If `from_logits` is
    False, then each entry of `y_pred` should sum to 1. If they don't sum to 1 then tf and torch backends will
    result in different numerical values.

    This method can be used with TensorFlow tensors:
    ```python
    true = tf.constant([[0, 1, 0], [1, 0, 0], [0, 0, 1]])
    pred = tf.constant([[0.1, 0.8, 0.1], [0.9, 0.05, 0.05], [0.1, 0.2, 0.7]])
    b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true)  # 0.228
    b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true, average_loss=False)  # [0.223, 0.105, 0.356]
    ```

    This method can be used with PyTorch tensors:
    ```python
    true = torch.tensor([[0, 1, 0], [1, 0, 0], [0, 0, 1]])
    pred = torch.tensor([[0.1, 0.8, 0.1], [0.9, 0.05, 0.05], [0.1, 0.2, 0.7]])
    b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true)  # 0.228
    b = fe.backend.categorical_crossentropy(y_pred=pred, y_true=true, average_loss=False)  # [0.223, 0.105, 0.356]
    ```

    Args:
        y_pred: Prediction with a shape like (Batch, C). dtype: float32 or float16.
        y_true: Ground truth class labels with a shape like `y_pred`. dtype: int or float32 or float16.
        from_logits: Whether y_pred is from logits. If True, a sigmoid will be applied to the prediction.
        average_loss: Whether to average the element-wise loss.

    Returns:
        The categorical crossentropy between `y_pred` and `y_true`. A scalar if `average_loss` is True, else a
        tensor with the shape (Batch).

    Raises:
        AssertionError: If `y_true` or `y_pred` are unacceptable data types.
    """
    assert type(y_pred) == type(y_true), "y_pred and y_true must be same tensor type"
    assert isinstance(y_pred, (tf.Tensor, torch.Tensor)), "only support tf.Tensor or torch.Tensor as y_pred"
    assert isinstance(y_true, (tf.Tensor, torch.Tensor)), "only support tf.Tensor or torch.Tensor as y_true"
    if tf.is_tensor(y_pred):
        ce = tf.losses.categorical_crossentropy(y_pred=y_pred, y_true=y_true, from_logits=from_logits)
    else:
        y_true = y_true.to(torch.float)
        ce = _categorical_crossentropy_torch(y_pred=y_pred, y_true=y_true, from_logits=from_logits)
    if average_loss:
        ce = reduce_mean(ce)
    return ce