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246 lines
9.4 KiB
246 lines
9.4 KiB
# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import logging
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from typing import Dict
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import paddle
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from paddle import distributed as dist
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from paddle.io import DataLoader
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from paddle.nn import Layer
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from paddle.optimizer import Optimizer
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from paddle.optimizer.lr import LRScheduler
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from paddlespeech.t2s.training.extensions.evaluator import StandardEvaluator
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from paddlespeech.t2s.training.reporter import report
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from paddlespeech.t2s.training.updaters.standard_updater import StandardUpdater
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from paddlespeech.t2s.training.updaters.standard_updater import UpdaterState
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logging.basicConfig(
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format='%(asctime)s [%(levelname)s] [%(filename)s:%(lineno)d] %(message)s',
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datefmt='[%Y-%m-%d %H:%M:%S]')
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logger = logging.getLogger(__name__)
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logger.setLevel(logging.INFO)
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class MBMelGANUpdater(StandardUpdater):
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def __init__(self,
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models: Dict[str, Layer],
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optimizers: Dict[str, Optimizer],
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criterions: Dict[str, Layer],
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schedulers: Dict[str, LRScheduler],
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dataloader: DataLoader,
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discriminator_train_start_steps: int,
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lambda_adv: float,
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output_dir=None):
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self.models = models
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self.generator: Layer = models['generator']
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self.discriminator: Layer = models['discriminator']
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self.optimizers = optimizers
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self.optimizer_g: Optimizer = optimizers['generator']
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self.optimizer_d: Optimizer = optimizers['discriminator']
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self.criterions = criterions
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self.criterion_stft = criterions['stft']
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self.criterion_sub_stft = criterions['sub_stft']
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self.criterion_pqmf = criterions['pqmf']
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self.criterion_gen_adv = criterions["gen_adv"]
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self.criterion_dis_adv = criterions["dis_adv"]
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self.schedulers = schedulers
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self.scheduler_g = schedulers['generator']
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self.scheduler_d = schedulers['discriminator']
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self.dataloader = dataloader
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self.discriminator_train_start_steps = discriminator_train_start_steps
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self.lambda_adv = lambda_adv
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self.state = UpdaterState(iteration=0, epoch=0)
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self.train_iterator = iter(self.dataloader)
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log_file = output_dir / 'worker_{}.log'.format(dist.get_rank())
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self.filehandler = logging.FileHandler(str(log_file))
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logger.addHandler(self.filehandler)
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self.logger = logger
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self.msg = ""
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def update_core(self, batch):
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self.msg = "Rank: {}, ".format(dist.get_rank())
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losses_dict = {}
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# parse batch
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wav, mel = batch
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# Generator
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# (B, out_channels, T ** prod(upsample_scales)
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wav_ = self.generator(mel)
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wav_mb_ = wav_
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# (B, 1, out_channels*T ** prod(upsample_scales)
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wav_ = self.criterion_pqmf.synthesis(wav_mb_)
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# initialize
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gen_loss = 0.0
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# full band Multi-resolution stft loss
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sc_loss, mag_loss = self.criterion_stft(wav_, wav)
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# for balancing with subband stft loss
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# Eq.(9) in paper
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gen_loss += 0.5 * (sc_loss + mag_loss)
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report("train/spectral_convergence_loss", float(sc_loss))
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report("train/log_stft_magnitude_loss", float(mag_loss))
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losses_dict["spectral_convergence_loss"] = float(sc_loss)
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losses_dict["log_stft_magnitude_loss"] = float(mag_loss)
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# sub band Multi-resolution stft loss
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# (B, subbands, T // subbands)
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wav_mb = self.criterion_pqmf.analysis(wav)
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sub_sc_loss, sub_mag_loss = self.criterion_sub_stft(wav_mb_, wav_mb)
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# Eq.(9) in paper
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gen_loss += 0.5 * (sub_sc_loss + sub_mag_loss)
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report("train/sub_spectral_convergence_loss", float(sub_sc_loss))
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report("train/sub_log_stft_magnitude_loss", float(sub_mag_loss))
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losses_dict["sub_spectral_convergence_loss"] = float(sub_sc_loss)
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losses_dict["sub_log_stft_magnitude_loss"] = float(sub_mag_loss)
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## Adversarial loss
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if self.state.iteration > self.discriminator_train_start_steps:
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p_ = self.discriminator(wav_)
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adv_loss = self.criterion_gen_adv(p_)
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report("train/adversarial_loss", float(adv_loss))
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losses_dict["adversarial_loss"] = float(adv_loss)
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gen_loss += self.lambda_adv * adv_loss
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report("train/generator_loss", float(gen_loss))
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losses_dict["generator_loss"] = float(gen_loss)
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self.optimizer_g.clear_grad()
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gen_loss.backward()
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self.optimizer_g.step()
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self.scheduler_g.step()
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# Disctiminator
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if self.state.iteration > self.discriminator_train_start_steps:
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# re-compute wav_ which leads better quality
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with paddle.no_grad():
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wav_ = self.generator(mel)
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wav_ = self.criterion_pqmf.synthesis(wav_)
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p = self.discriminator(wav)
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p_ = self.discriminator(wav_.detach())
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real_loss, fake_loss = self.criterion_dis_adv(p_, p)
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dis_loss = real_loss + fake_loss
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report("train/real_loss", float(real_loss))
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report("train/fake_loss", float(fake_loss))
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report("train/discriminator_loss", float(dis_loss))
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losses_dict["real_loss"] = float(real_loss)
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losses_dict["fake_loss"] = float(fake_loss)
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losses_dict["discriminator_loss"] = float(dis_loss)
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self.optimizer_d.clear_grad()
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dis_loss.backward()
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self.optimizer_d.step()
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self.scheduler_d.step()
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self.msg += ', '.join('{}: {:>.6f}'.format(k, v)
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for k, v in losses_dict.items())
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class MBMelGANEvaluator(StandardEvaluator):
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def __init__(self,
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models,
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criterions,
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dataloader,
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lambda_adv,
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output_dir=None):
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self.models = models
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self.generator = models['generator']
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self.discriminator = models['discriminator']
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self.criterions = criterions
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self.criterion_stft = criterions['stft']
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self.criterion_sub_stft = criterions['sub_stft']
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self.criterion_pqmf = criterions['pqmf']
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self.criterion_gen_adv = criterions["gen_adv"]
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self.criterion_dis_adv = criterions["dis_adv"]
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self.dataloader = dataloader
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self.lambda_adv = lambda_adv
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log_file = output_dir / 'worker_{}.log'.format(dist.get_rank())
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self.filehandler = logging.FileHandler(str(log_file))
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logger.addHandler(self.filehandler)
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self.logger = logger
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self.msg = ""
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def evaluate_core(self, batch):
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# logging.debug("Evaluate: ")
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self.msg = "Evaluate: "
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losses_dict = {}
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wav, mel = batch
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# Generator
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# (B, out_channels, T ** prod(upsample_scales)
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wav_ = self.generator(mel)
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wav_mb_ = wav_
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# (B, 1, out_channels*T ** prod(upsample_scales)
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wav_ = self.criterion_pqmf.synthesis(wav_mb_)
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## Adversarial loss
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p_ = self.discriminator(wav_)
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adv_loss = self.criterion_gen_adv(p_)
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report("eval/adversarial_loss", float(adv_loss))
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losses_dict["adversarial_loss"] = float(adv_loss)
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gen_loss = self.lambda_adv * adv_loss
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# Multi-resolution stft loss
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sc_loss, mag_loss = self.criterion_stft(wav_, wav)
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# Eq.(9) in paper
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gen_loss += 0.5 * (sc_loss + mag_loss)
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report("eval/spectral_convergence_loss", float(sc_loss))
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report("eval/log_stft_magnitude_loss", float(mag_loss))
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losses_dict["spectral_convergence_loss"] = float(sc_loss)
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losses_dict["log_stft_magnitude_loss"] = float(mag_loss)
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# sub band Multi-resolution stft loss
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# (B, subbands, T // subbands)
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wav_mb = self.criterion_pqmf.analysis(wav)
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sub_sc_loss, sub_mag_loss = self.criterion_sub_stft(wav_mb_, wav_mb)
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# Eq.(9) in paper
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gen_loss += 0.5 * (sub_sc_loss + sub_mag_loss)
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report("eval/sub_spectral_convergence_loss", float(sub_sc_loss))
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report("eval/sub_log_stft_magnitude_loss", float(sub_mag_loss))
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losses_dict["sub_spectral_convergence_loss"] = float(sub_sc_loss)
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losses_dict["sub_log_stft_magnitude_loss"] = float(sub_mag_loss)
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report("eval/generator_loss", float(gen_loss))
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losses_dict["generator_loss"] = float(gen_loss)
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# Disctiminator
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p = self.discriminator(wav)
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real_loss, fake_loss = self.criterion_dis_adv(p_, p)
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dis_loss = real_loss + fake_loss
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report("eval/real_loss", float(real_loss))
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report("eval/fake_loss", float(fake_loss))
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report("eval/discriminator_loss", float(dis_loss))
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losses_dict["real_loss"] = float(real_loss)
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losses_dict["fake_loss"] = float(fake_loss)
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losses_dict["discriminator_loss"] = float(dis_loss)
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self.msg += ', '.join('{}: {:>.6f}'.format(k, v)
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for k, v in losses_dict.items())
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self.logger.info(self.msg)
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