Mirror activations.py from nvidia/bigvgan_v2_44khz_128band_512x@95a9d1dc
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encoders/nvidia/bigvgan_v2_44khz_128band_512x/activations.py
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# Implementation adapted from https://github.com/EdwardDixon/snake under the MIT license.
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# LICENSE is in incl_licenses directory.
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import torch
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from torch import nn, sin, pow
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from torch.nn import Parameter
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class Snake(nn.Module):
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'''
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Implementation of a sine-based periodic activation function
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Shape:
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- Input: (B, C, T)
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- Output: (B, C, T), same shape as the input
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Parameters:
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- alpha - trainable parameter
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References:
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- This activation function is from this paper by Liu Ziyin, Tilman Hartwig, Masahito Ueda:
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https://arxiv.org/abs/2006.08195
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Examples:
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>>> a1 = snake(256)
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>>> x = torch.randn(256)
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>>> x = a1(x)
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'''
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def __init__(self, in_features, alpha=1.0, alpha_trainable=True, alpha_logscale=False):
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'''
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Initialization.
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INPUT:
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- in_features: shape of the input
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- alpha: trainable parameter
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alpha is initialized to 1 by default, higher values = higher-frequency.
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alpha will be trained along with the rest of your model.
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'''
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super(Snake, self).__init__()
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self.in_features = in_features
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# initialize alpha
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self.alpha_logscale = alpha_logscale
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if self.alpha_logscale: # log scale alphas initialized to zeros
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self.alpha = Parameter(torch.zeros(in_features) * alpha)
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else: # linear scale alphas initialized to ones
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self.alpha = Parameter(torch.ones(in_features) * alpha)
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self.alpha.requires_grad = alpha_trainable
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self.no_div_by_zero = 0.000000001
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def forward(self, x):
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'''
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Forward pass of the function.
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Applies the function to the input elementwise.
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Snake ∶= x + 1/a * sin^2 (xa)
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'''
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alpha = self.alpha.unsqueeze(0).unsqueeze(-1) # line up with x to [B, C, T]
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if self.alpha_logscale:
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alpha = torch.exp(alpha)
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x = x + (1.0 / (alpha + self.no_div_by_zero)) * pow(sin(x * alpha), 2)
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return x
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class SnakeBeta(nn.Module):
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'''
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A modified Snake function which uses separate parameters for the magnitude of the periodic components
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Shape:
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| 66 |
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- Input: (B, C, T)
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- Output: (B, C, T), same shape as the input
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| 68 |
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Parameters:
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| 69 |
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- alpha - trainable parameter that controls frequency
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| 70 |
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- beta - trainable parameter that controls magnitude
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References:
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- This activation function is a modified version based on this paper by Liu Ziyin, Tilman Hartwig, Masahito Ueda:
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| 73 |
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https://arxiv.org/abs/2006.08195
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| 74 |
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Examples:
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>>> a1 = snakebeta(256)
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>>> x = torch.randn(256)
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>>> x = a1(x)
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'''
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def __init__(self, in_features, alpha=1.0, alpha_trainable=True, alpha_logscale=False):
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'''
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| 81 |
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Initialization.
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| 82 |
+
INPUT:
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| 83 |
+
- in_features: shape of the input
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| 84 |
+
- alpha - trainable parameter that controls frequency
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| 85 |
+
- beta - trainable parameter that controls magnitude
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| 86 |
+
alpha is initialized to 1 by default, higher values = higher-frequency.
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| 87 |
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beta is initialized to 1 by default, higher values = higher-magnitude.
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| 88 |
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alpha will be trained along with the rest of your model.
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| 89 |
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'''
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| 90 |
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super(SnakeBeta, self).__init__()
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self.in_features = in_features
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# initialize alpha
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self.alpha_logscale = alpha_logscale
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if self.alpha_logscale: # log scale alphas initialized to zeros
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self.alpha = Parameter(torch.zeros(in_features) * alpha)
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self.beta = Parameter(torch.zeros(in_features) * alpha)
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else: # linear scale alphas initialized to ones
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self.alpha = Parameter(torch.ones(in_features) * alpha)
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self.beta = Parameter(torch.ones(in_features) * alpha)
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self.alpha.requires_grad = alpha_trainable
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self.beta.requires_grad = alpha_trainable
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self.no_div_by_zero = 0.000000001
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| 107 |
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def forward(self, x):
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'''
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| 109 |
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Forward pass of the function.
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| 110 |
+
Applies the function to the input elementwise.
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| 111 |
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SnakeBeta ∶= x + 1/b * sin^2 (xa)
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| 112 |
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'''
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| 113 |
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alpha = self.alpha.unsqueeze(0).unsqueeze(-1) # line up with x to [B, C, T]
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beta = self.beta.unsqueeze(0).unsqueeze(-1)
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if self.alpha_logscale:
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alpha = torch.exp(alpha)
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beta = torch.exp(beta)
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x = x + (1.0 / (beta + self.no_div_by_zero)) * pow(sin(x * alpha), 2)
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return x
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