torchaudio.models.hubert_pretrain_model

torchaudio.models.hubert_pretrain_model(extractor_mode: str, extractor_conv_layer_config: Optional[List[Tuple[int, int, int]]], extractor_conv_bias: bool, encoder_embed_dim: int, encoder_projection_dropout: float, encoder_pos_conv_kernel: int, encoder_pos_conv_groups: int, encoder_num_layers: int, encoder_num_heads: int, encoder_attention_dropout: float, encoder_ff_interm_features: int, encoder_ff_interm_dropout: float, encoder_dropout: float, encoder_layer_norm_first: bool, encoder_layer_drop: float, mask_prob: float, mask_selection: str, mask_other: float, mask_length: int, no_mask_overlap: bool, mask_min_space: int, mask_channel_prob: float, mask_channel_selection: str, mask_channel_other: float, mask_channel_length: int, no_mask_channel_overlap: bool, mask_channel_min_space: int, skip_masked: bool, skip_nomask: bool, num_classes: int, final_dim: int, feature_grad_mult: Optional[float]) → HuBERTPretrainModel

Builds custom HuBERTPretrainModel for training from scratch

Note

The “feature extractor” below corresponds to ConvFeatureExtractionModel in the original fairseq implementation. This is referred as “(convolutional) feature encoder” in the wav2vec 2.0 [Baevski et al., 2020] paper.

The “encoder” below corresponds to TransformerEncoder, and this is referred as “Transformer” in the paper.

Parameters:

• extractor_mode (str) –

  Operation mode of feature extractor. Valid values are "group_norm" or "layer_norm". If "group_norm", then a single normalization is applied in the first convolution block. Otherwise, all the convolution blocks will have layer normalization.

  This option corresponds to extractor_mode from fairseq.

• extractor_conv_layer_config (list of python:integer tuples or None) –

  Configuration of convolution layers in feature extractor. List of convolution configuration, i.e. [(output_channel, kernel_size, stride), ...]

  If None is provided, then the following default value is used.

  [
    (512, 10, 5),
    (512, 3, 2),
    (512, 3, 2),
    (512, 3, 2),
    (512, 3, 2),
    (512, 2, 2),
    (512, 2, 2),
  ]
  

  This option corresponds to conv_feature_layers from fairseq.

• extractor_conv_bias (bool) –

  Whether to include bias term to each convolution operation.

  This option corresponds to conv_bias from fairseq.

• encoder_embed_dim (int) –

  The dimension of embedding in encoder.

  This option corresponds to encoder_embed_dim from fairseq.

• encoder_projection_dropout (float) –

  The dropout probability applied after the input feature is projected to encoder_embed_dim.

  This option corresponds to dropout_input from fairseq.

• encoder_pos_conv_kernel (int) –

  The kernel size of convolutional positional embeddings.

  This option corresponds to conv_pos from fairseq.

• encoder_pos_conv_groups (int) –

  The number of groups of convolutional positional embeddings.

  This option corresponds to conv_pos_groups from fairseq.

• encoder_num_layers (int) –

  The number of self attention layers in transformer block.

  This option corresponds to encoder_layers from fairseq.

• encoder_num_heads (int) –

  The number of heads in self attention layers.

  This option corresponds to encoder_attention_heads from fairseq.

• encoder_attention_dropout (float) –

  The dropout probability applied after softmax in self-attention layer.

  This option corresponds to attention_dropout from fairseq.

• encoder_ff_interm_features (int) –

  The dimension of hidden features in feed forward layer.

  This option corresponds to encoder_ffn_embed_dim from fairseq.

• encoder_ff_interm_dropout (float) –

  The dropout probability applied in feedforward layer.

  This option correspinds to activation_dropout from fairseq.

• encoder_dropout (float) –

  The dropout probability applied at the end of feed forward layer.

  This option corresponds to dropout from fairseq.

• encoder_layer_norm_first (bool) –

  Control the order of layer norm in transformer layer and each encoder layer. If True, in transformer layer, layer norm is applied before features are fed to encoder layers. In encoder layer, two layer norms are applied before and after self attention. If False, in transformer layer, layer norm is applied after features are fed to encoder layers. In encoder layer, two layer norms are applied after self attention, before and after feed forward.

  This option corresponds to layer_norm_first from fairseq.

• encoder_layer_drop (float) –

  Probability to drop each encoder layer during training.

  This option corresponds to layerdrop from fairseq.

• mask_prob (float) –

  Probability for each token to be chosen as start of the span to be masked. this will be multiplied by number of timesteps divided by length of mask span to mask approximately this percentage of all elements. However due to overlaps, the actual number will be smaller (unless no_overlap is True).

  This option corresponds to mask_prob from fairseq.

• mask_selection (str) –

  How to choose the mask length. Options: [static, uniform, normal, poisson].

  This option corresponds to mask_selection from fairseq.

• mask_other (float) –

  Secondary mask argument (used for more complex distributions).

  This option corresponds to mask_other from fairseq.

• mask_length (int) –

  The lengths of the mask.

  This option corresponds to mask_length from fairseq.

• no_mask_overlap (bool) –

  Whether to allow masks to overlap.

  This option corresponds to no_mask_overlap from fairseq.

• mask_min_space (int) –

  Minimum space between spans (if no overlap is enabled).

  This option corresponds to mask_min_space from fairseq.

• mask_channel_prob –

  (float): The probability of replacing a feature with 0.

  This option corresponds to mask_channel_prob from fairseq.

• mask_channel_selection (str) –

  How to choose the mask length for channel masking. Options: [static, uniform, normal, poisson].

  This option corresponds to mask_channel_selection from fairseq.

• mask_channel_other (float) –

  Secondary mask argument for channel masking(used for more complex distributions).

  This option corresponds to mask_channel_other from fairseq.

• mask_channel_length (int) –

  Minimum space between spans (if no overlap is enabled) for channel masking.

  This option corresponds to mask_channel_length from fairseq.

• no_mask_channel_overlap (bool) –

  Whether to allow channel masks to overlap.

  This option corresponds to no_mask_channel_overlap from fairseq.

• mask_channel_min_space (int) –

  Minimum space between spans for channel masking(if no overlap is enabled).

  This option corresponds to mask_channel_min_space from fairseq.

• skip_masked (bool) –

  If True, skip computing losses over masked frames.

  This option corresponds to skip_masked from fairseq.

• skip_nomask (bool) –

  If True, skip computing losses over unmasked frames.

  This option corresponds to skip_nomask from fairseq.

• num_classes (int) – The number of classes in the labels.

• final_dim (int) –

  Project final representations and targets to final_dim.

  This option corresponds to final_dim from fairseq.

• feature_grad_mult (float or None) –

  The factor to scale the convolutional feature extraction layer gradients by. The scale factor will not affect the forward pass.

  This option corresponds to feature_grad_mult from fairseq.

Returns:

The resulting model.

Return type:

HuBERTPretrainModel