NLLLoss
-
class torch.nn.NLLLoss(weight=None, size_average=None, ignore_index=-100, reduce=None, reduction='mean')
[source] -
The negative log likelihood loss. It is useful to train a classification problem with
C
classes.If provided, the optional argument
weight
should be a 1D Tensor assigning weight to each of the classes. This is particularly useful when you have an unbalanced training set.The
input
given through a forward call is expected to contain log-probabilities of each class.input
has to be a Tensor of size either or with for theK
-dimensional case (described later).Obtaining log-probabilities in a neural network is easily achieved by adding a
LogSoftmax
layer in the last layer of your network. You may useCrossEntropyLoss
instead, if you prefer not to add an extra layer.The
target
that this loss expects should be a class index in the range whereC = number of classes
; ifignore_index
is specified, this loss also accepts this class index (this index may not necessarily be in the class range).The unreduced (i.e. with
reduction
set to'none'
) loss can be described as:where is the input, is the target, is the weight, and is the batch size. If
reduction
is not'none'
(default'mean'
), thenCan also be used for higher dimension inputs, such as 2D images, by providing an input of size with , where is the number of dimensions, and a target of appropriate shape (see below). In the case of images, it computes NLL loss per-pixel.
- Parameters
-
-
weight (Tensor, optional) – a manual rescaling weight given to each class. If given, it has to be a Tensor of size
C
. Otherwise, it is treated as if having all ones. -
size_average (bool, optional) – Deprecated (see
reduction
). By default, the losses are averaged over each loss element in the batch. Note that for some losses, there are multiple elements per sample. If the fieldsize_average
is set toFalse
, the losses are instead summed for each minibatch. Ignored whenreduce
isFalse
. Default:True
-
ignore_index (int, optional) – Specifies a target value that is ignored and does not contribute to the input gradient. When
size_average
isTrue
, the loss is averaged over non-ignored targets. -
reduce (bool, optional) – Deprecated (see
reduction
). By default, the losses are averaged or summed over observations for each minibatch depending onsize_average
. Whenreduce
isFalse
, returns a loss per batch element instead and ignoressize_average
. Default:True
-
reduction (string, optional) – Specifies the reduction to apply to the output:
'none'
|'mean'
|'sum'
.'none'
: no reduction will be applied,'mean'
: the weighted mean of the output is taken,'sum'
: the output will be summed. Note:size_average
andreduce
are in the process of being deprecated, and in the meantime, specifying either of those two args will overridereduction
. Default:'mean'
-
weight (Tensor, optional) – a manual rescaling weight given to each class. If given, it has to be a Tensor of size
- Shape:
-
- Input: where
C = number of classes
, or with in the case ofK
-dimensional loss. - Target: where each value is , or with in the case of K-dimensional loss.
- Output: scalar. If
reduction
is'none'
, then the same size as the target: , or with in the case of K-dimensional loss.
- Input: where
Examples:
>>> m = nn.LogSoftmax(dim=1) >>> loss = nn.NLLLoss() >>> # input is of size N x C = 3 x 5 >>> input = torch.randn(3, 5, requires_grad=True) >>> # each element in target has to have 0 <= value < C >>> target = torch.tensor([1, 0, 4]) >>> output = loss(m(input), target) >>> output.backward() >>> >>> >>> # 2D loss example (used, for example, with image inputs) >>> N, C = 5, 4 >>> loss = nn.NLLLoss() >>> # input is of size N x C x height x width >>> data = torch.randn(N, 16, 10, 10) >>> conv = nn.Conv2d(16, C, (3, 3)) >>> m = nn.LogSoftmax(dim=1) >>> # each element in target has to have 0 <= value < C >>> target = torch.empty(N, 8, 8, dtype=torch.long).random_(0, C) >>> output = loss(m(conv(data)), target) >>> output.backward()
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Licensed under the 3-clause BSD License.
https://pytorch.org/docs/1.8.0/generated/torch.nn.NLLLoss.html