mirror of https://github.com/coqui-ai/TTS.git
512 lines
18 KiB
Python
512 lines
18 KiB
Python
import argparse
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import glob
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import os
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import sys
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import time
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import traceback
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import numpy as np
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import torch
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# DISTRIBUTED
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from torch.nn.parallel import DistributedDataParallel as DDP_th
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from torch.optim import Adam
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from torch.utils.data import DataLoader
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from torch.utils.data.distributed import DistributedSampler
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from TTS.utils.audio import AudioProcessor
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from TTS.utils.console_logger import ConsoleLogger
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from TTS.utils.distribute import init_distributed
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from TTS.utils.generic_utils import (KeepAverage, count_parameters,
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create_experiment_folder, get_git_branch,
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remove_experiment_folder, set_init_dict)
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from TTS.utils.io import copy_model_files, load_config
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from TTS.utils.tensorboard_logger import TensorboardLogger
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from TTS.utils.training import setup_torch_training_env
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from TTS.vocoder.datasets.preprocess import load_wav_data, load_wav_feat_data
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from TTS.vocoder.datasets.wavegrad_dataset import WaveGradDataset
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from TTS.vocoder.utils.generic_utils import plot_results, setup_generator
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from TTS.vocoder.utils.io import save_best_model, save_checkpoint
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use_cuda, num_gpus = setup_torch_training_env(True, True)
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def setup_loader(ap, is_val=False, verbose=False):
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if is_val and not c.run_eval:
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loader = None
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else:
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dataset = WaveGradDataset(ap=ap,
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items=eval_data if is_val else train_data,
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seq_len=c.seq_len,
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hop_len=ap.hop_length,
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pad_short=c.pad_short,
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conv_pad=c.conv_pad,
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is_training=not is_val,
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return_segments=True,
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use_noise_augment=False,
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use_cache=c.use_cache,
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verbose=verbose)
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sampler = DistributedSampler(dataset) if num_gpus > 1 else None
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loader = DataLoader(dataset,
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batch_size=c.batch_size,
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shuffle=num_gpus <= 1,
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drop_last=False,
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sampler=sampler,
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num_workers=c.num_val_loader_workers
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if is_val else c.num_loader_workers,
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pin_memory=False)
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return loader
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def format_data(data):
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# return a whole audio segment
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m, x = data
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x = x.unsqueeze(1)
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if use_cuda:
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m = m.cuda(non_blocking=True)
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x = x.cuda(non_blocking=True)
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return m, x
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def format_test_data(data):
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# return a whole audio segment
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m, x = data
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m = m[None, ...]
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x = x[None, None, ...]
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if use_cuda:
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m = m.cuda(non_blocking=True)
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x = x.cuda(non_blocking=True)
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return m, x
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def train(model, criterion, optimizer, scheduler, scaler, ap, global_step,
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epoch):
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data_loader = setup_loader(ap, is_val=False, verbose=(epoch == 0))
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model.train()
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epoch_time = 0
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keep_avg = KeepAverage()
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if use_cuda:
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batch_n_iter = int(
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len(data_loader.dataset) / (c.batch_size * num_gpus))
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else:
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batch_n_iter = int(len(data_loader.dataset) / c.batch_size)
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end_time = time.time()
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c_logger.print_train_start()
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# setup noise schedule
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noise_schedule = c['train_noise_schedule']
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betas = np.linspace(noise_schedule['min_val'], noise_schedule['max_val'],
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noise_schedule['num_steps'])
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if hasattr(model, 'module'):
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model.module.compute_noise_level(betas)
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else:
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model.compute_noise_level(betas)
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for num_iter, data in enumerate(data_loader):
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start_time = time.time()
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# format data
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m, x = format_data(data)
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loader_time = time.time() - end_time
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global_step += 1
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with torch.cuda.amp.autocast(enabled=c.mixed_precision):
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# compute noisy input
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if hasattr(model, 'module'):
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noise, x_noisy, noise_scale = model.module.compute_y_n(x)
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else:
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noise, x_noisy, noise_scale = model.compute_y_n(x)
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# forward pass
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noise_hat = model(x_noisy, m, noise_scale)
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# compute losses
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loss = criterion(noise, noise_hat)
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loss_wavegrad_dict = {'wavegrad_loss': loss}
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# check nan loss
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if torch.isnan(loss).any():
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raise RuntimeError(f'Detected NaN loss at step {global_step}.')
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optimizer.zero_grad()
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# backward pass with loss scaling
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if c.mixed_precision:
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scaler.scale(loss).backward()
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scaler.unscale_(optimizer)
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grad_norm = torch.nn.utils.clip_grad_norm_(model.parameters(),
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c.clip_grad)
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scaler.step(optimizer)
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scaler.update()
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else:
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loss.backward()
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grad_norm = torch.nn.utils.clip_grad_norm_(model.parameters(),
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c.clip_grad)
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optimizer.step()
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# schedule update
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if scheduler is not None:
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scheduler.step()
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# disconnect loss values
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loss_dict = dict()
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for key, value in loss_wavegrad_dict.items():
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if isinstance(value, int):
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loss_dict[key] = value
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else:
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loss_dict[key] = value.item()
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# epoch/step timing
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step_time = time.time() - start_time
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epoch_time += step_time
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# get current learning rates
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current_lr = list(optimizer.param_groups)[0]['lr']
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# update avg stats
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update_train_values = dict()
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for key, value in loss_dict.items():
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update_train_values['avg_' + key] = value
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update_train_values['avg_loader_time'] = loader_time
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update_train_values['avg_step_time'] = step_time
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keep_avg.update_values(update_train_values)
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# print training stats
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if global_step % c.print_step == 0:
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log_dict = {
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'step_time': [step_time, 2],
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'loader_time': [loader_time, 4],
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"current_lr": current_lr,
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"grad_norm": grad_norm.item()
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}
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c_logger.print_train_step(batch_n_iter, num_iter, global_step,
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log_dict, loss_dict, keep_avg.avg_values)
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if args.rank == 0:
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# plot step stats
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if global_step % 10 == 0:
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iter_stats = {
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"lr": current_lr,
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"grad_norm": grad_norm.item(),
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"step_time": step_time
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}
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iter_stats.update(loss_dict)
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tb_logger.tb_train_iter_stats(global_step, iter_stats)
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# save checkpoint
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if global_step % c.save_step == 0:
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if c.checkpoint:
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# save model
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save_checkpoint(model,
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optimizer,
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scheduler,
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None,
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None,
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None,
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global_step,
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epoch,
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OUT_PATH,
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model_losses=loss_dict,
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scaler=scaler.state_dict()
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if c.mixed_precision else None)
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end_time = time.time()
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# print epoch stats
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c_logger.print_train_epoch_end(global_step, epoch, epoch_time, keep_avg)
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# Plot Training Epoch Stats
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epoch_stats = {"epoch_time": epoch_time}
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epoch_stats.update(keep_avg.avg_values)
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if args.rank == 0:
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tb_logger.tb_train_epoch_stats(global_step, epoch_stats)
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# TODO: plot model stats
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if c.tb_model_param_stats and args.rank == 0:
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tb_logger.tb_model_weights(model, global_step)
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return keep_avg.avg_values, global_step
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@torch.no_grad()
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def evaluate(model, criterion, ap, global_step, epoch):
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data_loader = setup_loader(ap, is_val=True, verbose=(epoch == 0))
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model.eval()
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epoch_time = 0
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keep_avg = KeepAverage()
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end_time = time.time()
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c_logger.print_eval_start()
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for num_iter, data in enumerate(data_loader):
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start_time = time.time()
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# format data
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m, x = format_data(data)
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loader_time = time.time() - end_time
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global_step += 1
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# compute noisy input
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if hasattr(model, 'module'):
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noise, x_noisy, noise_scale = model.module.compute_y_n(x)
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else:
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noise, x_noisy, noise_scale = model.compute_y_n(x)
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# forward pass
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noise_hat = model(x_noisy, m, noise_scale)
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# compute losses
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loss = criterion(noise, noise_hat)
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loss_wavegrad_dict = {'wavegrad_loss': loss}
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loss_dict = dict()
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for key, value in loss_wavegrad_dict.items():
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if isinstance(value, (int, float)):
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loss_dict[key] = value
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else:
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loss_dict[key] = value.item()
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step_time = time.time() - start_time
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epoch_time += step_time
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# update avg stats
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update_eval_values = dict()
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for key, value in loss_dict.items():
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update_eval_values['avg_' + key] = value
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update_eval_values['avg_loader_time'] = loader_time
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update_eval_values['avg_step_time'] = step_time
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keep_avg.update_values(update_eval_values)
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# print eval stats
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if c.print_eval:
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c_logger.print_eval_step(num_iter, loss_dict, keep_avg.avg_values)
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if args.rank == 0:
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data_loader.dataset.return_segments = False
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samples = data_loader.dataset.load_test_samples(1)
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m, x = format_test_data(samples[0])
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# setup noise schedule and inference
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noise_schedule = c['test_noise_schedule']
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betas = np.linspace(noise_schedule['min_val'],
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noise_schedule['max_val'],
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noise_schedule['num_steps'])
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if hasattr(model, 'module'):
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model.module.compute_noise_level(betas)
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# compute voice
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x_pred = model.module.inference(m)
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else:
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model.compute_noise_level(betas)
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# compute voice
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x_pred = model.inference(m)
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# compute spectrograms
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figures = plot_results(x_pred, x, ap, global_step, 'eval')
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tb_logger.tb_eval_figures(global_step, figures)
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# Sample audio
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sample_voice = x_pred[0].squeeze(0).detach().cpu().numpy()
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tb_logger.tb_eval_audios(global_step, {'eval/audio': sample_voice},
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c.audio["sample_rate"])
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tb_logger.tb_eval_stats(global_step, keep_avg.avg_values)
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data_loader.dataset.return_segments = True
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return keep_avg.avg_values
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def main(args): # pylint: disable=redefined-outer-name
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# pylint: disable=global-variable-undefined
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global train_data, eval_data
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print(f" > Loading wavs from: {c.data_path}")
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if c.feature_path is not None:
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print(f" > Loading features from: {c.feature_path}")
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eval_data, train_data = load_wav_feat_data(c.data_path, c.feature_path,
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c.eval_split_size)
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else:
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eval_data, train_data = load_wav_data(c.data_path, c.eval_split_size)
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# setup audio processor
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ap = AudioProcessor(**c.audio)
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# DISTRUBUTED
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if num_gpus > 1:
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init_distributed(args.rank, num_gpus, args.group_id,
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c.distributed["backend"], c.distributed["url"])
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# setup models
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model = setup_generator(c)
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# scaler for mixed_precision
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scaler = torch.cuda.amp.GradScaler() if c.mixed_precision else None
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# setup optimizers
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optimizer = Adam(model.parameters(), lr=c.lr, weight_decay=0)
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# schedulers
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scheduler = None
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if 'lr_scheduler' in c:
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scheduler = getattr(torch.optim.lr_scheduler, c.lr_scheduler)
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scheduler = scheduler(optimizer, **c.lr_scheduler_params)
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# setup criterion
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criterion = torch.nn.L1Loss().cuda()
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if use_cuda:
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model.cuda()
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criterion.cuda()
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if args.restore_path:
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checkpoint = torch.load(args.restore_path, map_location='cpu')
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try:
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print(" > Restoring Model...")
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model.load_state_dict(checkpoint['model'])
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print(" > Restoring Optimizer...")
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optimizer.load_state_dict(checkpoint['optimizer'])
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if 'scheduler' in checkpoint:
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print(" > Restoring LR Scheduler...")
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scheduler.load_state_dict(checkpoint['scheduler'])
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# NOTE: Not sure if necessary
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scheduler.optimizer = optimizer
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if "scaler" in checkpoint and c.mixed_precision:
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print(" > Restoring AMP Scaler...")
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scaler.load_state_dict(checkpoint["scaler"])
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except RuntimeError:
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# retore only matching layers.
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print(" > Partial model initialization...")
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model_dict = model.state_dict()
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model_dict = set_init_dict(model_dict, checkpoint['model'], c)
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model.load_state_dict(model_dict)
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del model_dict
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# reset lr if not countinuining training.
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for group in optimizer.param_groups:
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group['lr'] = c.lr
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print(" > Model restored from step %d" % checkpoint['step'],
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flush=True)
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args.restore_step = checkpoint['step']
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else:
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args.restore_step = 0
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# DISTRUBUTED
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if num_gpus > 1:
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model = DDP_th(model, device_ids=[args.rank])
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num_params = count_parameters(model)
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print(" > WaveGrad has {} parameters".format(num_params), flush=True)
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if 'best_loss' not in locals():
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best_loss = float('inf')
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global_step = args.restore_step
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for epoch in range(0, c.epochs):
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c_logger.print_epoch_start(epoch, c.epochs)
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_, global_step = train(model, criterion, optimizer, scheduler, scaler,
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ap, global_step, epoch)
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eval_avg_loss_dict = evaluate(model, criterion, ap, global_step, epoch)
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c_logger.print_epoch_end(epoch, eval_avg_loss_dict)
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target_loss = eval_avg_loss_dict[c.target_loss]
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best_loss = save_best_model(
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target_loss,
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best_loss,
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model,
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optimizer,
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scheduler,
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None,
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None,
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None,
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global_step,
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epoch,
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OUT_PATH,
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model_losses=eval_avg_loss_dict,
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scaler=scaler.state_dict() if c.mixed_precision else None)
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if __name__ == '__main__':
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parser = argparse.ArgumentParser()
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parser.add_argument(
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'--continue_path',
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type=str,
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help=
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'Training output folder to continue training. Use to continue a training. If it is used, "config_path" is ignored.',
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default='',
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required='--config_path' not in sys.argv)
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parser.add_argument(
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'--restore_path',
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type=str,
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help='Model file to be restored. Use to finetune a model.',
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default='')
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parser.add_argument('--config_path',
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type=str,
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help='Path to config file for training.',
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required='--continue_path' not in sys.argv)
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parser.add_argument('--debug',
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type=bool,
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default=False,
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help='Do not verify commit integrity to run training.')
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# DISTRUBUTED
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parser.add_argument(
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'--rank',
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type=int,
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default=0,
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help='DISTRIBUTED: process rank for distributed training.')
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parser.add_argument('--group_id',
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type=str,
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default="",
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help='DISTRIBUTED: process group id.')
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args = parser.parse_args()
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if args.continue_path != '':
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args.output_path = args.continue_path
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args.config_path = os.path.join(args.continue_path, 'config.json')
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list_of_files = glob.glob(
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args.continue_path +
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"/*.pth.tar") # * means all if need specific format then *.csv
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latest_model_file = max(list_of_files, key=os.path.getctime)
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args.restore_path = latest_model_file
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print(f" > Training continues for {args.restore_path}")
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# setup output paths and read configs
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c = load_config(args.config_path)
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# check_config(c)
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_ = os.path.dirname(os.path.realpath(__file__))
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# DISTRIBUTED
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if c.mixed_precision:
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print(" > Mixed precision is enabled")
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OUT_PATH = args.continue_path
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if args.continue_path == '':
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OUT_PATH = create_experiment_folder(c.output_path, c.run_name,
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args.debug)
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AUDIO_PATH = os.path.join(OUT_PATH, 'test_audios')
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c_logger = ConsoleLogger()
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if args.rank == 0:
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os.makedirs(AUDIO_PATH, exist_ok=True)
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new_fields = {}
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if args.restore_path:
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new_fields["restore_path"] = args.restore_path
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new_fields["github_branch"] = get_git_branch()
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copy_model_files(c, args.config_path, OUT_PATH, new_fields)
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os.chmod(AUDIO_PATH, 0o775)
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os.chmod(OUT_PATH, 0o775)
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LOG_DIR = OUT_PATH
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tb_logger = TensorboardLogger(LOG_DIR, model_name='VOCODER')
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# write model desc to tensorboard
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tb_logger.tb_add_text('model-description', c['run_description'], 0)
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try:
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main(args)
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except KeyboardInterrupt:
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remove_experiment_folder(OUT_PATH)
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try:
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sys.exit(0)
|
|
except SystemExit:
|
|
os._exit(0) # pylint: disable=protected-access
|
|
except Exception: # pylint: disable=broad-except
|
|
remove_experiment_folder(OUT_PATH)
|
|
traceback.print_exc()
|
|
sys.exit(1)
|