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"""Subsampling layer definition.""" |
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from typing import Tuple, Union |
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import torch |
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class BaseSubsampling(torch.nn.Module): |
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def __init__(self): |
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super().__init__() |
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self.right_context = 0 |
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self.subsampling_rate = 1 |
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def position_encoding( |
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self, offset: Union[int, torch.Tensor], size: int |
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) -> torch.Tensor: |
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return self.pos_enc.position_encoding(offset, size) |
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class LinearNoSubsampling(BaseSubsampling): |
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"""Linear transform the input without subsampling |
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Args: |
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idim (int): Input dimension. |
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odim (int): Output dimension. |
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dropout_rate (float): Dropout rate. |
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""" |
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def __init__( |
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self, idim: int, odim: int, dropout_rate: float, pos_enc_class: torch.nn.Module |
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): |
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"""Construct an linear object.""" |
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super().__init__() |
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self.out = torch.nn.Sequential( |
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torch.nn.Linear(idim, odim), |
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torch.nn.LayerNorm(odim, eps=1e-5), |
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torch.nn.Dropout(dropout_rate), |
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) |
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self.pos_enc = pos_enc_class |
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self.right_context = 0 |
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self.subsampling_rate = 1 |
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def forward( |
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self, |
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x: torch.Tensor, |
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x_mask: torch.Tensor, |
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offset: Union[int, torch.Tensor] = 0, |
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) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: |
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"""Input x. |
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Args: |
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x (torch.Tensor): Input tensor (#batch, time, idim). |
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x_mask (torch.Tensor): Input mask (#batch, 1, time). |
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Returns: |
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torch.Tensor: linear input tensor (#batch, time', odim), |
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where time' = time . |
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torch.Tensor: linear input mask (#batch, 1, time'), |
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where time' = time . |
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""" |
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x = self.out(x) |
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x, pos_emb = self.pos_enc(x, offset) |
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return x, pos_emb, x_mask |
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class Conv2dSubsampling4(BaseSubsampling): |
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"""Convolutional 2D subsampling (to 1/4 length). |
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Args: |
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idim (int): Input dimension. |
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odim (int): Output dimension. |
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dropout_rate (float): Dropout rate. |
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""" |
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def __init__( |
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self, idim: int, odim: int, dropout_rate: float, pos_enc_class: torch.nn.Module |
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): |
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"""Construct an Conv2dSubsampling4 object.""" |
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super().__init__() |
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self.conv = torch.nn.Sequential( |
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torch.nn.Conv2d(1, odim, 3, 2), |
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torch.nn.ReLU(), |
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torch.nn.Conv2d(odim, odim, 3, 2), |
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torch.nn.ReLU(), |
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) |
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self.out = torch.nn.Sequential( |
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torch.nn.Linear(odim * (((idim - 1) // 2 - 1) // 2), odim) |
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) |
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self.pos_enc = pos_enc_class |
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self.subsampling_rate = 4 |
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self.right_context = 6 |
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def forward( |
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self, |
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x: torch.Tensor, |
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x_mask: torch.Tensor, |
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offset: Union[int, torch.Tensor] = 0, |
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) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: |
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"""Subsample x. |
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Args: |
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x (torch.Tensor): Input tensor (#batch, time, idim). |
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x_mask (torch.Tensor): Input mask (#batch, 1, time). |
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Returns: |
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torch.Tensor: Subsampled tensor (#batch, time', odim), |
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where time' = time // 4. |
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torch.Tensor: Subsampled mask (#batch, 1, time'), |
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where time' = time // 4. |
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torch.Tensor: positional encoding |
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""" |
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x = x.unsqueeze(1) |
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x = self.conv(x) |
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b, c, t, f = x.size() |
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x = self.out(x.transpose(1, 2).contiguous().view(b, t, c * f)) |
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x, pos_emb = self.pos_enc(x, offset) |
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return x, pos_emb, x_mask[:, :, 2::2][:, :, 2::2] |
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class Conv2dSubsampling6(BaseSubsampling): |
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"""Convolutional 2D subsampling (to 1/6 length). |
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Args: |
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idim (int): Input dimension. |
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odim (int): Output dimension. |
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dropout_rate (float): Dropout rate. |
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pos_enc (torch.nn.Module): Custom position encoding layer. |
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""" |
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def __init__( |
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self, idim: int, odim: int, dropout_rate: float, pos_enc_class: torch.nn.Module |
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): |
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"""Construct an Conv2dSubsampling6 object.""" |
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super().__init__() |
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self.conv = torch.nn.Sequential( |
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torch.nn.Conv2d(1, odim, 3, 2), |
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torch.nn.ReLU(), |
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torch.nn.Conv2d(odim, odim, 5, 3), |
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torch.nn.ReLU(), |
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) |
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self.linear = torch.nn.Linear(odim * (((idim - 1) // 2 - 2) // 3), odim) |
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self.pos_enc = pos_enc_class |
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self.subsampling_rate = 6 |
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self.right_context = 10 |
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def forward( |
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self, |
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x: torch.Tensor, |
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x_mask: torch.Tensor, |
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offset: Union[int, torch.Tensor] = 0, |
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) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: |
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"""Subsample x. |
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Args: |
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x (torch.Tensor): Input tensor (#batch, time, idim). |
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x_mask (torch.Tensor): Input mask (#batch, 1, time). |
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Returns: |
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torch.Tensor: Subsampled tensor (#batch, time', odim), |
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where time' = time // 6. |
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torch.Tensor: Subsampled mask (#batch, 1, time'), |
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where time' = time // 6. |
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torch.Tensor: positional encoding |
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""" |
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x = x.unsqueeze(1) |
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x = self.conv(x) |
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b, c, t, f = x.size() |
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x = self.linear(x.transpose(1, 2).contiguous().view(b, t, c * f)) |
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x, pos_emb = self.pos_enc(x, offset) |
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return x, pos_emb, x_mask[:, :, 2::2][:, :, 4::3] |
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class Conv2dSubsampling8(BaseSubsampling): |
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"""Convolutional 2D subsampling (to 1/8 length). |
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Args: |
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idim (int): Input dimension. |
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odim (int): Output dimension. |
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dropout_rate (float): Dropout rate. |
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""" |
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def __init__( |
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self, idim: int, odim: int, dropout_rate: float, pos_enc_class: torch.nn.Module |
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): |
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"""Construct an Conv2dSubsampling8 object.""" |
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super().__init__() |
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self.conv = torch.nn.Sequential( |
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torch.nn.Conv2d(1, odim, 3, 2), |
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torch.nn.ReLU(), |
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torch.nn.Conv2d(odim, odim, 3, 2), |
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torch.nn.ReLU(), |
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torch.nn.Conv2d(odim, odim, 3, 2), |
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torch.nn.ReLU(), |
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) |
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self.linear = torch.nn.Linear( |
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odim * ((((idim - 1) // 2 - 1) // 2 - 1) // 2), odim |
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) |
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self.pos_enc = pos_enc_class |
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self.subsampling_rate = 8 |
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self.right_context = 14 |
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def forward( |
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self, |
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x: torch.Tensor, |
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x_mask: torch.Tensor, |
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offset: Union[int, torch.Tensor] = 0, |
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) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: |
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"""Subsample x. |
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Args: |
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x (torch.Tensor): Input tensor (#batch, time, idim). |
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x_mask (torch.Tensor): Input mask (#batch, 1, time). |
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Returns: |
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torch.Tensor: Subsampled tensor (#batch, time', odim), |
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where time' = time // 8. |
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torch.Tensor: Subsampled mask (#batch, 1, time'), |
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where time' = time // 8. |
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torch.Tensor: positional encoding |
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""" |
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x = x.unsqueeze(1) |
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x = self.conv(x) |
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b, c, t, f = x.size() |
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x = self.linear(x.transpose(1, 2).contiguous().view(b, t, c * f)) |
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x, pos_emb = self.pos_enc(x, offset) |
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return x, pos_emb, x_mask[:, :, 2::2][:, :, 2::2][:, :, 2::2] |
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