My implementation of label-smooth, amsoftmax, focal-loss, dual-focal-loss, triplet-loss, giou-loss, affinity-loss, pc_softmax_cross_entropy, ohem-loss(softmax based on line hard mining loss), large-margin-softmax(bmvc2019), lovasz-softmax-loss, and dice-loss(both generalized soft dice loss and batch soft dice loss). Maybe this is useful in my future work.
Also tried to implement swish, hard-swish(hswish) and mish activation functions.
Additionally, cuda based one-hot function is added (support label smooth).
Newly add an "Exponential Moving Average(EMA)" operator.
Add convolution ops, such as coord-conv2d, and dynamic-conv2d(dy-conv2d).
Some operators are implemented with pytorch cuda extension, so you need to compile it first:
$ python setup.py install
After installing, now you can pick up what you need and use the losses or ops like one of thes:
from pytorch_loss import SwishV1, SwishV2, SwishV3
from pytorch_loss import HSwishV1, HSwishV2, HSwishV3
from pytorch_loss import MishV1, MishV2, MishV3
from pytorch_loss import convert_to_one_hot, convert_to_one_hot_cu, OnehotEncoder
from pytorch_loss import EMA
from pytorch_loss import TripletLoss
from pytorch_loss import SoftDiceLossV1, SoftDiceLossV2, SoftDiceLossV3
from pytorch_loss import PCSoftmaxCrossEntropyV1, PCSoftmaxCrossEntropyV2
from pytorch_loss import LargeMarginSoftmaxV1, LargeMarginSoftmaxV2, LargeMarginSoftmaxV3
from pytorch_loss import LabelSmoothSoftmaxCEV1, LabelSmoothSoftmaxCEV2, LabelSmoothSoftmaxCEV3
from pytorch_loss import generalized_iou_loss
from pytorch_loss import FocalLossV1, FocalLossV2, FocalLossV3
from pytorch_loss import Dual_Focal_loss
from pytorch_loss import GeneralizedSoftDiceLoss, BatchSoftDiceLoss
from pytorch_loss import AMSoftmax
from pytorch_loss import AffinityFieldLoss, AffinityLoss
from pytorch_loss import OhemCELoss, OhemLargeMarginLoss
from pytorch_loss import LovaszSoftmaxV1, LovaszSoftmaxV3
from pytorch_loss import TaylorCrossEntropyLossV1, TaylorCrossEntropyLossV3
from pytorch_loss import TaylorSoftmaxV1, TaylorSoftmaxV3
from pytorch_loss import LogTaylorSoftmaxV1, LogTaylorSoftmaxV3
from pytorch_loss import CoordConv2d, DY_Conv2d
Note that some losses or ops have 3 versions, like LabelSmoothSoftmaxCEV1
, LabelSmoothSoftmaxCEV2
, LabelSmoothSoftmaxCEV3
, here V1
means the implementation with pure pytorch ops and use torch.autograd
for backward computation, V2
means implementation with pure pytorch ops but use self-derived formula for backward computation, and V3
means implementation with cuda extension. Generally speaking, the V3
ops are faster and more memory efficient, since I have tried to squeeze everything in one cuda kernel function, which in most cases brings less overhead than a combination of pytorch ops.
For those who happen to find this repo, if you see errors in my code, feel free to open an issue to correct me.