Skip to content

elmo_lstm

allennlp.modules.elmo_lstm

[SOURCE]


A stacked bidirectional LSTM with skip connections between layers.

ElmoLstm

class ElmoLstm(_EncoderBase):
 | def __init__(
 |     self,
 |     input_size: int,
 |     hidden_size: int,
 |     cell_size: int,
 |     num_layers: int,
 |     requires_grad: bool = False,
 |     recurrent_dropout_probability: float = 0.0,
 |     memory_cell_clip_value: Optional[float] = None,
 |     state_projection_clip_value: Optional[float] = None
 | ) -> None

A stacked, bidirectional LSTM which uses LstmCellWithProjection's with highway layers between the inputs to layers. The inputs to the forward and backward directions are independent - forward and backward states are not concatenated between layers.

Additionally, this LSTM maintains its own state, which is updated every time forward is called. It is dynamically resized for different batch sizes and is designed for use with non-continuous inputs (i.e inputs which aren't formatted as a stream, such as text used for a language modeling task, which is how stateful RNNs are typically used). This is non-standard, but can be thought of as having an "end of sentence" state, which is carried across different sentences.

Parameters

  • input_size : int
    The dimension of the inputs to the LSTM.
  • hidden_size : int
    The dimension of the outputs of the LSTM.
  • cell_size : int
    The dimension of the memory cell of the LstmCellWithProjection.
  • num_layers : int
    The number of bidirectional LSTMs to use.
  • requires_grad : bool, optional
    If True, compute gradient of ELMo parameters for fine tuning.
  • recurrent_dropout_probability : float, optional (default = 0.0)
    The dropout probability to be used in a dropout scheme as stated in A Theoretically Grounded Application of Dropout in Recurrent Neural Networks.
  • state_projection_clip_value : float, optional (default = None)
    The magnitude with which to clip the hidden_state after projecting it.
  • memory_cell_clip_value : float, optional (default = None)
    The magnitude with which to clip the memory cell.

forward

class ElmoLstm(_EncoderBase):
 | ...
 | def forward(
 |     self,
 |     inputs: torch.Tensor,
 |     mask: torch.BoolTensor
 | ) -> torch.Tensor

Parameters

  • inputs : torch.Tensor
    A Tensor of shape (batch_size, sequence_length, hidden_size).
  • mask : torch.BoolTensor
    A binary mask of shape (batch_size, sequence_length) representing the non-padded elements in each sequence in the batch.

Returns

  • torch.Tensor
    A torch.Tensor of shape (num_layers, batch_size, sequence_length, hidden_size), where the num_layers dimension represents the LSTM output from that layer.

load_weights

class ElmoLstm(_EncoderBase):
 | ...
 | def load_weights(self, weight_file: str) -> None

Load the pre-trained weights from the file.