DL-Art-School/codes/models/gpt_voice/dvae_arch_playground/discretization_loss.py
2021-10-06 17:10:50 -06:00

56 lines
2.2 KiB
Python

import random
from math import prod
import torch
import torch.nn as nn
import torch.nn.functional as F
# Fits a soft-discretized input to a normal-PDF across the specified dimension.
# In other words, attempts to force the discretization function to have a mean equal utilization across all discrete
# values with the specified expected variance.
class DiscretizationLoss(nn.Module):
def __init__(self, discrete_bins, dim, expected_variance, store_past=0):
super().__init__()
self.discrete_bins = discrete_bins
self.dim = dim
self.dist = torch.distributions.Normal(0, scale=expected_variance)
if store_past > 0:
self.record_past = True
self.register_buffer("accumulator_index", torch.zeros(1, dtype=torch.long, device='cpu'))
self.register_buffer("accumulator_filled", torch.zeros(1, dtype=torch.long, device='cpu'))
self.register_buffer("accumulator", torch.zeros(store_past, discrete_bins))
else:
self.record_past = False
def forward(self, x):
other_dims = set(range(len(x.shape)))-set([self.dim])
averaged = x.sum(dim=tuple(other_dims)) / x.sum()
averaged = averaged - averaged.mean()
if self.record_past:
acc_count = self.accumulator.shape[0]
avg = averaged.detach().clone()
if self.accumulator_filled > 0:
averaged = torch.mean(self.accumulator, dim=0) * (acc_count-1) / acc_count + \
averaged / acc_count
# Also push averaged into the accumulator.
self.accumulator[self.accumulator_index] = avg
self.accumulator_index += 1
if self.accumulator_index >= acc_count:
self.accumulator_index *= 0
if self.accumulator_filled <= 0:
self.accumulator_filled += 1
return torch.sum(-self.dist.log_prob(averaged))
if __name__ == '__main__':
d = DiscretizationLoss(1024, 1, 1e-6, store_past=20)
for _ in range(500):
v = torch.randn(16, 1024, 500)
#for k in range(5):
# v[:, random.randint(0,8192), :] += random.random()*100
v = F.softmax(v, 1)
print(d(v))