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168 lines
6.7 KiB
168 lines
6.7 KiB
""" DropBlock, DropPath
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PyTorch implementations of DropBlock and DropPath (Stochastic Depth) regularization layers.
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Papers:
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DropBlock: A regularization method for convolutional networks (https://arxiv.org/abs/1810.12890)
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Deep Networks with Stochastic Depth (https://arxiv.org/abs/1603.09382)
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Code:
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DropBlock impl inspired by two Tensorflow impl that I liked:
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- https://github.com/tensorflow/tpu/blob/master/models/official/resnet/resnet_model.py#L74
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- https://github.com/clovaai/assembled-cnn/blob/master/nets/blocks.py
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Hacked together by Ross Wightman
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"""
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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def drop_block_2d(
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x, drop_prob: float = 0.1, block_size: int = 7, gamma_scale: float = 1.0,
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with_noise: bool = False, inplace: bool = False, batchwise: bool = False):
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""" DropBlock. See https://arxiv.org/pdf/1810.12890.pdf
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DropBlock with an experimental gaussian noise option. This layer has been tested on a few training
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runs with success, but needs further validation and possibly optimization for lower runtime impact.
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"""
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B, C, H, W = x.shape
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total_size = W * H
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clipped_block_size = min(block_size, min(W, H))
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# seed_drop_rate, the gamma parameter
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gamma = gamma_scale * drop_prob * total_size / clipped_block_size ** 2 / (
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(W - block_size + 1) * (H - block_size + 1))
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# Forces the block to be inside the feature map.
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w_i, h_i = torch.meshgrid(torch.arange(W).to(x.device), torch.arange(H).to(x.device))
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valid_block = ((w_i >= clipped_block_size // 2) & (w_i < W - (clipped_block_size - 1) // 2)) & \
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((h_i >= clipped_block_size // 2) & (h_i < H - (clipped_block_size - 1) // 2))
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valid_block = torch.reshape(valid_block, (1, 1, H, W)).to(dtype=x.dtype)
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if batchwise:
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# one mask for whole batch, quite a bit faster
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uniform_noise = torch.rand((1, C, H, W), dtype=x.dtype, device=x.device)
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else:
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uniform_noise = torch.rand_like(x)
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block_mask = ((2 - gamma - valid_block + uniform_noise) >= 1).to(dtype=x.dtype)
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block_mask = -F.max_pool2d(
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-block_mask,
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kernel_size=clipped_block_size, # block_size,
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stride=1,
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padding=clipped_block_size // 2)
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if with_noise:
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normal_noise = torch.randn((1, C, H, W), dtype=x.dtype, device=x.device) if batchwise else torch.randn_like(x)
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if inplace:
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x.mul_(block_mask).add_(normal_noise * (1 - block_mask))
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else:
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x = x * block_mask + normal_noise * (1 - block_mask)
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else:
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normalize_scale = (block_mask.numel() / block_mask.to(dtype=torch.float32).sum().add(1e-7)).to(x.dtype)
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if inplace:
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x.mul_(block_mask * normalize_scale)
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else:
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x = x * block_mask * normalize_scale
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return x
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def drop_block_fast_2d(
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x: torch.Tensor, drop_prob: float = 0.1, block_size: int = 7,
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gamma_scale: float = 1.0, with_noise: bool = False, inplace: bool = False, batchwise: bool = False):
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""" DropBlock. See https://arxiv.org/pdf/1810.12890.pdf
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DropBlock with an experimental gaussian noise option. Simplied from above without concern for valid
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block mask at edges.
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"""
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B, C, H, W = x.shape
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total_size = W * H
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clipped_block_size = min(block_size, min(W, H))
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gamma = gamma_scale * drop_prob * total_size / clipped_block_size ** 2 / (
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(W - block_size + 1) * (H - block_size + 1))
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if batchwise:
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# one mask for whole batch, quite a bit faster
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block_mask = torch.rand((1, C, H, W), dtype=x.dtype, device=x.device) < gamma
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else:
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# mask per batch element
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block_mask = torch.rand_like(x) < gamma
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block_mask = F.max_pool2d(
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block_mask.to(x.dtype), kernel_size=clipped_block_size, stride=1, padding=clipped_block_size // 2)
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if with_noise:
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normal_noise = torch.randn((1, C, H, W), dtype=x.dtype, device=x.device) if batchwise else torch.randn_like(x)
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if inplace:
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x.mul_(1. - block_mask).add_(normal_noise * block_mask)
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else:
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x = x * (1. - block_mask) + normal_noise * block_mask
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else:
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block_mask = 1 - block_mask
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normalize_scale = (block_mask.numel() / block_mask.to(dtype=torch.float32).sum().add(1e-7)).to(dtype=x.dtype)
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if inplace:
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x.mul_(block_mask * normalize_scale)
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else:
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x = x * block_mask * normalize_scale
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return x
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class DropBlock2d(nn.Module):
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""" DropBlock. See https://arxiv.org/pdf/1810.12890.pdf
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"""
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def __init__(self,
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drop_prob=0.1,
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block_size=7,
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gamma_scale=1.0,
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with_noise=False,
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inplace=False,
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batchwise=False,
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fast=True):
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super(DropBlock2d, self).__init__()
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self.drop_prob = drop_prob
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self.gamma_scale = gamma_scale
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self.block_size = block_size
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self.with_noise = with_noise
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self.inplace = inplace
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self.batchwise = batchwise
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self.fast = fast # FIXME finish comparisons of fast vs not
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def forward(self, x):
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if not self.training or not self.drop_prob:
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return x
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if self.fast:
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return drop_block_fast_2d(
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x, self.drop_prob, self.block_size, self.gamma_scale, self.with_noise, self.inplace, self.batchwise)
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else:
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return drop_block_2d(
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x, self.drop_prob, self.block_size, self.gamma_scale, self.with_noise, self.inplace, self.batchwise)
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def drop_path(x, drop_prob: float = 0., training: bool = False):
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"""Drop paths (Stochastic Depth) per sample (when applied in main path of residual blocks).
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This is the same as the DropConnect impl I created for EfficientNet, etc networks, however,
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the original name is misleading as 'Drop Connect' is a different form of dropout in a separate paper...
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See discussion: https://github.com/tensorflow/tpu/issues/494#issuecomment-532968956 ... I've opted for
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changing the layer and argument names to 'drop path' rather than mix DropConnect as a layer name and use
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'survival rate' as the argument.
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"""
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if drop_prob == 0. or not training:
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return x
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keep_prob = 1 - drop_prob
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random_tensor = keep_prob + torch.rand((x.size()[0], 1, 1, 1), dtype=x.dtype, device=x.device)
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random_tensor.floor_() # binarize
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output = x.div(keep_prob) * random_tensor
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return output
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class DropPath(nn.ModuleDict):
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"""Drop paths (Stochastic Depth) per sample (when applied in main path of residual blocks).
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"""
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def __init__(self, drop_prob=None):
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super(DropPath, self).__init__()
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self.drop_prob = drop_prob
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def forward(self, x):
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return drop_path(x, self.drop_prob, self.training)
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