HuberLoss¶
- class torch.nn.HuberLoss(reduction='mean', delta=1.0)[source][source]¶
Creates a criterion that uses a squared term if the absolute element-wise error falls below delta and a delta-scaled L1 term otherwise. This loss combines advantages of both
L1Loss
andMSELoss
; the delta-scaled L1 region makes the loss less sensitive to outliers thanMSELoss
, while the L2 region provides smoothness overL1Loss
near 0. See Huber loss for more information.For a batch of size , the unreduced loss can be described as:
with
If reduction is not none, then:
Note
When delta is set to 1, this loss is equivalent to
SmoothL1Loss
. In general, this loss differs fromSmoothL1Loss
by a factor of delta (AKA beta in Smooth L1). SeeSmoothL1Loss
for additional discussion on the differences in behavior between the two losses.- Parameters
reduction (str, optional) – Specifies the reduction to apply to the output:
'none'
|'mean'
|'sum'
.'none'
: no reduction will be applied,'mean'
: the sum of the output will be divided by the number of elements in the output,'sum'
: the output will be summed. Default:'mean'
delta (float, optional) – Specifies the threshold at which to change between delta-scaled L1 and L2 loss. The value must be positive. Default: 1.0
- Shape:
Input: where means any number of dimensions.
Target: , same shape as the input.
Output: scalar. If
reduction
is'none'
, then , same shape as the input.