name: "predictive_model" model: type: predictive sample_rate: 16000 skip_nan_grad: false num_outputs: 1 normalize_input: true # normalize the input signal to 0dBFS train_ds: manifest_filepath: ??? input_key: noisy_filepath target_key: clean_filepath audio_duration: 2.04 # Number of STFT time frames = 1 + audio_duration // encoder.hop_length = 256 random_offset: true normalization_signal: input_signal batch_size: 8 # batch size may be increased based on the available memory shuffle: true num_workers: 8 pin_memory: true validation_ds: manifest_filepath: ??? input_key: noisy_filepath target_key: clean_filepath batch_size: 8 shuffle: false num_workers: 4 pin_memory: true encoder: _target_: nemo.collections.audio.modules.transforms.AudioToSpectrogram fft_length: 510 # Number of subbands in the STFT = fft_length // 2 + 1 = 256 hop_length: 128 magnitude_power: 0.5 scale: 0.33 decoder: _target_: nemo.collections.audio.modules.transforms.SpectrogramToAudio fft_length: ${model.encoder.fft_length} hop_length: ${model.encoder.hop_length} magnitude_power: ${model.encoder.magnitude_power} scale: ${model.encoder.scale} estimator: _target_: nemo.collections.audio.parts.submodules.ncsnpp.SpectrogramNoiseConditionalScoreNetworkPlusPlus in_channels: 1 # single-channel noisy input out_channels: 1 # single-channel estimate num_res_blocks: 3 # increased number of res blocks pad_time_to: 64 # pad to 64 frames for the time dimension pad_dimension_to: 0 # no padding in the frequency dimension loss: _target_: nemo.collections.audio.losses.MSELoss # computed in the time domain metrics: val: sisdr: # output SI-SDR _target_: torchmetrics.audio.ScaleInvariantSignalDistortionRatio optim: name: adam lr: 1e-4 # optimizer arguments betas: [0.9, 0.999] weight_decay: 0.0 trainer: devices: -1 # number of GPUs, -1 would use all available GPUs num_nodes: 1 max_epochs: -1 max_steps: -1 # computed at runtime if not set val_check_interval: 1.0 # Set to 0.25 to check 4 times per epoch, or an int for number of iterations accelerator: auto strategy: ddp accumulate_grad_batches: 1 gradient_clip_val: null precision: 32 # Should be set to 16 for O1 and O2 to enable the AMP. log_every_n_steps: 25 # Interval of logging. enable_progress_bar: true num_sanity_val_steps: 0 # number of steps to perform validation steps for sanity check the validation process before starting the training, setting to 0 disables it check_val_every_n_epoch: 1 # number of evaluations on validation every n epochs sync_batchnorm: true enable_checkpointing: false # Provided by exp_manager logger: false # Provided by exp_manager exp_manager: exp_dir: null name: ${name} # use exponential moving average for model parameters ema: enable: true decay: 0.999 # decay rate cpu_offload: false # offload EMA parameters to CPU to save GPU memory every_n_steps: 1 # how often to update EMA weights validate_original_weights: False # use original weights for validation calculation? # logging create_tensorboard_logger: true # checkpointing create_checkpoint_callback: true checkpoint_callback_params: # in case of multiple validation sets, first one is used monitor: val_sisdr mode: max save_top_k: 5 always_save_nemo: true # saves the checkpoints as nemo files instead of PTL checkpoints # early stopping create_early_stopping_callback: true early_stopping_callback_params: monitor: val_sisdr mode: max min_delta: 0.0 patience: 20 # patience in terms of check_val_every_n_epoch verbose: true strict: false # Should be False to avoid a runtime error where EarlyStopping says monitor is unavailable, which sometimes happens with resumed training. resume_from_checkpoint: null # The path to a checkpoint file to continue the training, restores the whole state including the epoch, step, LR schedulers, apex, etc. # you need to set these two to true to continue the training resume_if_exists: false resume_ignore_no_checkpoint: false # You may use this section to create a W&B logger create_wandb_logger: false wandb_logger_kwargs: name: null project: null