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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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class SiLU(nn.Module): |
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@staticmethod |
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def forward(x): |
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return x * torch.sigmoid(x) |
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class Hardswish(nn.Module): |
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@staticmethod |
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def forward(x): |
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return x * F.hardtanh(x + 3, 0., 6.) / 6. |
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class Mish(nn.Module): |
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@staticmethod |
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def forward(x): |
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return x * F.softplus(x).tanh() |
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class MemoryEfficientMish(nn.Module): |
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class F(torch.autograd.Function): |
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@staticmethod |
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def forward(ctx, x): |
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ctx.save_for_backward(x) |
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return x.mul(torch.tanh(F.softplus(x))) |
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@staticmethod |
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def backward(ctx, grad_output): |
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x = ctx.saved_tensors[0] |
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sx = torch.sigmoid(x) |
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fx = F.softplus(x).tanh() |
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return grad_output * (fx + x * sx * (1 - fx * fx)) |
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def forward(self, x): |
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return self.F.apply(x) |
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class FReLU(nn.Module): |
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def __init__(self, c1, k=3): |
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super().__init__() |
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self.conv = nn.Conv2d(c1, c1, k, 1, 1, groups=c1, bias=False) |
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self.bn = nn.BatchNorm2d(c1) |
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def forward(self, x): |
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return torch.max(x, self.bn(self.conv(x))) |
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class AconC(nn.Module): |
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r""" ACON activation (activate or not). |
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AconC: (p1*x-p2*x) * sigmoid(beta*(p1*x-p2*x)) + p2*x, beta is a learnable parameter |
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according to "Activate or Not: Learning Customized Activation" <https://arxiv.org/pdf/2009.04759.pdf>. |
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""" |
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def __init__(self, c1): |
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super().__init__() |
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self.p1 = nn.Parameter(torch.randn(1, c1, 1, 1)) |
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self.p2 = nn.Parameter(torch.randn(1, c1, 1, 1)) |
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self.beta = nn.Parameter(torch.ones(1, c1, 1, 1)) |
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def forward(self, x): |
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dpx = (self.p1 - self.p2) * x |
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return dpx * torch.sigmoid(self.beta * dpx) + self.p2 * x |
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class MetaAconC(nn.Module): |
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r""" ACON activation (activate or not). |
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MetaAconC: (p1*x-p2*x) * sigmoid(beta*(p1*x-p2*x)) + p2*x, beta is generated by a small network |
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according to "Activate or Not: Learning Customized Activation" <https://arxiv.org/pdf/2009.04759.pdf>. |
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""" |
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def __init__(self, c1, k=1, s=1, r=16): |
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super().__init__() |
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c2 = max(r, c1 // r) |
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self.p1 = nn.Parameter(torch.randn(1, c1, 1, 1)) |
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self.p2 = nn.Parameter(torch.randn(1, c1, 1, 1)) |
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self.fc1 = nn.Conv2d(c1, c2, k, s, bias=True) |
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self.fc2 = nn.Conv2d(c2, c1, k, s, bias=True) |
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def forward(self, x): |
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y = x.mean(dim=2, keepdims=True).mean(dim=3, keepdims=True) |
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beta = torch.sigmoid(self.fc2(self.fc1(y))) |
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dpx = (self.p1 - self.p2) * x |
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return dpx * torch.sigmoid(beta * dpx) + self.p2 * x |
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