import ast import pprint class HParams(object): def __init__(self, **kwargs): self.__dict__.update(kwargs) def __setitem__(self, key, value): setattr(self, key, value) def __getitem__(self, key): return getattr(self, key) def __repr__(self): return pprint.pformat(self.__dict__) def parse(self, string): # Overrides hparams from a comma-separated string of name=value pairs if len(string) > 0: overrides = [s.split("=") for s in string.split(",")] keys, values = zip(*overrides) keys = list(map(str.strip, keys)) values = list(map(str.strip, values)) for k in keys: self.__dict__[k] = ast.literal_eval(values[keys.index(k)]) return self hparams = HParams( ### Signal Processing (used in both synthesizer and vocoder) sample_rate = 16000, n_fft = 800, num_mels = 80, hop_size = 200, # Tacotron uses 12.5 ms frame shift (set to sample_rate * 0.0125) win_size = 800, # Tacotron uses 50 ms frame length (set to sample_rate * 0.050) fmin = 55, min_level_db = -100, ref_level_db = 20, max_abs_value = 4., # Gradient explodes if too big, premature convergence if too small. preemphasis = 0.97, # Filter coefficient to use if preemphasize is True preemphasize = True, ### Tacotron Text-to-Speech (TTS) tts_embed_dims = 512, # Embedding dimension for the graphemes/phoneme inputs tts_encoder_dims = 256, tts_decoder_dims = 128, tts_postnet_dims = 512, tts_encoder_K = 5, tts_lstm_dims = 1024, tts_postnet_K = 5, tts_num_highways = 4, tts_dropout = 0.5, tts_cleaner_names = ["english_cleaners"], tts_stop_threshold = -3.4, # Value below which audio generation ends. # For example, for a range of [-4, 4], this # will terminate the sequence at the first # frame that has all values < -3.4 ### Tacotron Training tts_schedule = [(2, 1e-3, 20_000, 12), # Progressive training schedule (2, 5e-4, 40_000, 12), # (r, lr, step, batch_size) (2, 2e-4, 80_000, 12), # (2, 1e-4, 160_000, 12), # r = reduction factor (# of mel frames (2, 3e-5, 320_000, 12), # synthesized for each decoder iteration) (2, 1e-5, 640_000, 12)], # lr = learning rate tts_clip_grad_norm = 1.0, # clips the gradient norm to prevent explosion - set to None if not needed tts_eval_interval = 500, # Number of steps between model evaluation (sample generation) # Set to -1 to generate after completing epoch, or 0 to disable tts_eval_num_samples = 1, # Makes this number of samples ### Data Preprocessing max_mel_frames = 900, rescale = True, rescaling_max = 0.9, synthesis_batch_size = 16, # For vocoder preprocessing and inference. ### Mel Visualization and Griffin-Lim signal_normalization = True, power = 1.5, griffin_lim_iters = 60, ### Audio processing options fmax = 7600, # Should not exceed (sample_rate // 2) allow_clipping_in_normalization = True, # Used when signal_normalization = True clip_mels_length = True, # If true, discards samples exceeding max_mel_frames use_lws = False, # "Fast spectrogram phase recovery using local weighted sums" symmetric_mels = True, # Sets mel range to [-max_abs_value, max_abs_value] if True, # and [0, max_abs_value] if False trim_silence = True, # Use with sample_rate of 16000 for best results ### SV2TTS speaker_embedding_size = 256, # Dimension for the speaker embedding silence_min_duration_split = 0.4, # Duration in seconds of a silence for an utterance to be split utterance_min_duration = 1.6, # Duration in seconds below which utterances are discarded ) def hparams_debug_string(): return str(hparams)