from utils.hparams import hparams class NoneSchedule(object): def __init__(self, optimizer): super().__init__() self.optimizer = optimizer self.constant_lr = hparams['lr'] self.step(0) def step(self, num_updates): self.lr = self.constant_lr for param_group in self.optimizer.param_groups: param_group['lr'] = self.lr return self.lr def get_lr(self): return self.optimizer.param_groups[0]['lr'] def get_last_lr(self): return self.get_lr() class RSQRTSchedule(object): def __init__(self, optimizer): super().__init__() self.optimizer = optimizer self.constant_lr = hparams['lr'] self.warmup_updates = hparams['warmup_updates'] self.hidden_size = hparams['hidden_size'] self.lr = hparams['lr'] for param_group in optimizer.param_groups: param_group['lr'] = self.lr self.step(0) def step(self, num_updates): constant_lr = self.constant_lr warmup = min(num_updates / self.warmup_updates, 1.0) rsqrt_decay = max(self.warmup_updates, num_updates) ** -0.5 rsqrt_hidden = self.hidden_size ** -0.5 self.lr = max(constant_lr * warmup * rsqrt_decay * rsqrt_hidden, 1e-7) for param_group in self.optimizer.param_groups: param_group['lr'] = self.lr return self.lr def get_lr(self): return self.optimizer.param_groups[0]['lr'] def get_last_lr(self): return self.get_lr()