|
- # Copyright (c) 2015-present, Facebook, Inc.
- # All rights reserved.
- """
- Implements the knowledge distillation loss
- """
- import torch
- from torch.nn import functional as F
-
-
- class DistillationLoss(torch.nn.Module):
- """
- This module wraps a standard criterion and adds an extra knowledge distillation loss by
- taking a teacher model prediction and using it as additional supervision.
- """
- def __init__(self, base_criterion: torch.nn.Module, teacher_model: torch.nn.Module,
- distillation_type: str, alpha: float, tau: float):
- super().__init__()
- self.base_criterion = base_criterion
- self.teacher_model = teacher_model
- assert distillation_type in ['none', 'soft', 'hard']
- self.distillation_type = distillation_type
- self.alpha = alpha
- self.tau = tau
-
- def forward(self, inputs, outputs, labels):
- """
- Args:
- inputs: The original inputs that are feed to the teacher model
- outputs: the outputs of the model to be trained. It is expected to be
- either a Tensor, or a Tuple[Tensor, Tensor], with the original output
- in the first position and the distillation predictions as the second output
- labels: the labels for the base criterion
- """
- outputs_kd = None
- if not isinstance(outputs, torch.Tensor):
- # assume that the model outputs a tuple of [outputs, outputs_kd]
- outputs, outputs_kd = outputs
- base_loss = self.base_criterion(outputs, labels)
- if self.distillation_type == 'none':
- return base_loss
-
- if outputs_kd is None:
- raise ValueError("When knowledge distillation is enabled, the model is "
- "expected to return a Tuple[Tensor, Tensor] with the output of the "
- "class_token and the dist_token")
- # don't backprop throught the teacher
- with torch.no_grad():
- teacher_outputs = self.teacher_model(inputs)
-
- if self.distillation_type == 'soft':
- T = self.tau
- # taken from https://github.com/peterliht/knowledge-distillation-pytorch/blob/master/model/net.py#L100
- # with slight modifications
- distillation_loss = F.kl_div(
- F.log_softmax(outputs_kd / T, dim=1),
- F.log_softmax(teacher_outputs / T, dim=1),
- reduction='sum',
- log_target=True
- ) * (T * T) / outputs_kd.numel()
- elif self.distillation_type == 'hard':
- distillation_loss = F.cross_entropy(outputs_kd, teacher_outputs.argmax(dim=1))
-
- loss = base_loss * (1 - self.alpha) + distillation_loss * self.alpha
- return loss
|