X-Git-Url: https://fleuret.org/cgi-bin/gitweb/gitweb.cgi?a=blobdiff_plain;f=world.py;h=fa305cf1d4d03408924928e6b029f8f8d6a305cb;hb=2ac9d1299a84f96228f49fbdac02d5a7017445e5;hp=c3eb1019f275d74bcf8a266cac6eecdb7daba25b;hpb=bf48dc69f7f57ad391481c8917570e35f661cc4a;p=picoclvr.git diff --git a/world.py b/world.py index c3eb101..fa305cf 100755 --- a/world.py +++ b/world.py @@ -65,15 +65,19 @@ class SignSTE(nn.Module): def train_encoder( train_input, test_input, - depth=3, + depth=2, dim_hidden=48, nb_bits_per_token=8, lr_start=1e-3, lr_end=1e-4, nb_epochs=10, batch_size=25, + 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): @@ -132,7 +136,7 @@ def train_encoder( nb_parameters = sum(p.numel() for p in model.parameters()) - print(f"nb_parameters {nb_parameters}") + logger(f"nb_parameters {nb_parameters}") model.to(device) @@ -145,6 +149,7 @@ def train_encoder( acc_train_loss = 0.0 for input in tqdm.tqdm(train_input.split(batch_size), desc="vqae-train"): + input = input.to(device) z = encoder(input) zq = z if k < 2 else quantizer(z) output = decoder(zq) @@ -164,6 +169,7 @@ def train_encoder( acc_test_loss = 0.0 for input in tqdm.tqdm(test_input.split(batch_size), desc="vqae-test"): + input = input.to(device) z = encoder(input) zq = z if k < 1 else quantizer(z) output = decoder(zq) @@ -179,7 +185,7 @@ def train_encoder( train_loss = acc_train_loss / train_input.size(0) test_loss = acc_test_loss / test_input.size(0) - print(f"train_ae {k} lr {lr} train_loss {train_loss} test_loss {test_loss}") + logger(f"train_ae {k} lr {lr} train_loss {train_loss} test_loss {test_loss}") sys.stdout.flush() return encoder, quantizer, decoder @@ -326,12 +332,19 @@ def generate_episodes(nb, steps): for n in tqdm.tqdm(range(nb), dynamic_ncols=True, desc="world-data"): frames, actions = generate_episode(steps) all_frames += frames - all_actions += [actions] + all_actions += [actions[None, :]] return torch.cat(all_frames, 0).contiguous(), torch.cat(all_actions, 0) def create_data_and_processors( - nb_train_samples, nb_test_samples, mode, nb_steps, nb_epochs=10 + nb_train_samples, + nb_test_samples, + mode, + nb_steps, + nb_epochs=10, + device=torch.device("cpu"), + device_storage=torch.device("cpu"), + logger=None, ): assert mode in ["first_last"] @@ -339,30 +352,33 @@ def create_data_and_processors( steps = [True] + [False] * (nb_steps + 1) + [True] train_input, train_actions = generate_episodes(nb_train_samples, steps) + train_input, train_actions = train_input.to(device_storage), train_actions.to(device_storage) test_input, test_actions = generate_episodes(nb_test_samples, steps) + test_input, test_actions = test_input.to(device_storage), test_actions.to(device_storage) encoder, quantizer, decoder = train_encoder( - train_input, test_input, nb_epochs=nb_epochs + train_input, test_input, nb_epochs=nb_epochs, logger=logger, device=device ) encoder.train(False) quantizer.train(False) decoder.train(False) - z = encoder(train_input[:1]) - pow2 = (2 ** torch.arange(z.size(1), device=z.device))[None, None, :] + z = encoder(train_input[:1].to(device)) + pow2 = (2 ** torch.arange(z.size(1), device=device))[None, None, :] z_h, z_w = z.size(2), z.size(3) def frame2seq(input, batch_size=25): seq = [] - + p = pow2.to(device) for x in input.split(batch_size): + x=x.to(device) z = encoder(x) ze_bool = (quantizer(z) >= 0).long() output = ( ze_bool.permute(0, 2, 3, 1).reshape( ze_bool.size(0), -1, ze_bool.size(1) ) - * pow2 + * p ).sum(-1) seq.append(output) @@ -371,9 +387,10 @@ def create_data_and_processors( def seq2frame(input, batch_size=25, T=1e-2): frames = [] - + p = pow2.to(device) for seq in input.split(batch_size): - zd_bool = (seq[:, :, None] // pow2) % 2 + seq = seq.to(device) + zd_bool = (seq[:, :, None] // p) % 2 zd_bool = zd_bool.reshape(zd_bool.size(0), z_h, z_w, -1).permute(0, 3, 1, 2) logits = decoder(zd_bool * 2.0 - 1.0) logits = logits.reshape(