#!/usr/bin/env python
+# Any copyright is dedicated to the Public Domain.
+# https://creativecommons.org/publicdomain/zero/1.0/
+
+# Written by Francois Fleuret <francois@fleuret.org>
+
import math, sys, tqdm
import torch, torchvision
else:
return s
+
class DiscreteSampler2d(nn.Module):
def __init__(self):
super().__init__()
def forward(self, x):
- s = (x >= x.max(-3,keepdim=True).values).float()
+ s = (x >= x.max(-3, keepdim=True).values).float()
if self.training:
u = x.softmax(dim=-3)
def train_encoder(
train_input,
test_input,
- depth=2,
+ depth,
+ nb_bits_per_token,
dim_hidden=48,
- nb_bits_per_token=8,
lambda_entropy=0.0,
lr_start=1e-3,
lr_end=1e-4,
logger=None,
device=torch.device("cpu"),
):
- if logger is None:
- logger = lambda s: print(s)
-
mu, std = train_input.float().mean(), train_input.float().std()
def encoder_core(depth, dim):
nb_parameters = sum(p.numel() for p in model.parameters())
- logger(f"nb_parameters {nb_parameters}")
+ logger(f"vqae nb_parameters {nb_parameters}")
model.to(device)
train_loss = acc_train_loss / train_input.size(0)
test_loss = acc_test_loss / test_input.size(0)
- logger(f"train_ae {k} lr {lr} train_loss {train_loss} test_loss {test_loss}")
+ logger(f"vqae train {k} lr {lr} train_loss {train_loss} test_loss {test_loss}")
sys.stdout.flush()
return encoder, quantizer, decoder
nb_test_samples,
mode,
nb_steps,
+ depth=3,
+ nb_bits_per_token=8,
nb_epochs=10,
device=torch.device("cpu"),
device_storage=torch.device("cpu"),
if mode == "first_last":
steps = [True] + [False] * (nb_steps + 1) + [True]
+ if logger is None:
+ logger = lambda s: print(s)
+
train_input, train_actions = generate_episodes(nb_train_samples, steps)
train_input, train_actions = train_input.to(device_storage), train_actions.to(
device_storage
encoder, quantizer, decoder = train_encoder(
train_input,
test_input,
+ depth=depth,
+ nb_bits_per_token=nb_bits_per_token,
lambda_entropy=1.0,
nb_epochs=nb_epochs,
logger=logger,
pow2 = (2 ** torch.arange(z.size(1), device=device))[None, None, :]
z_h, z_w = z.size(2), z.size(3)
+ logger(f"vqae input {train_input[0].size()} output {z[0].size()}")
+
def frame2seq(input, batch_size=25):
seq = []
p = pow2.to(device)
frame2seq,
seq2frame,
) = create_data_and_processors(
- 25000, 1000,
+ 25000,
+ 1000,
nb_epochs=5,
mode="first_last",
nb_steps=20,