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VITA-1.5 / vita /model /multimodal_encoder /whale /adapter.py
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 import torch
from torch import nn
from torch.nn.utils.rnn import pad_sequence
class CNNAdapter(torch.nn.Module):
def __init__(
self,
enc_out_dim: int = 512,
llm_embed_dim: int = 4096,
kernel_size: int = 5,
):
super().__init__()
self.left_padding1 = nn.ConstantPad1d((kernel_size - 1, 0), 0.0)
self.conv1d1 = nn.Conv1d(enc_out_dim, 2 * enc_out_dim, kernel_size, 1, 0)
self.bn1 = nn.BatchNorm1d(2 * enc_out_dim, eps=1e-3, momentum=0.99)
self.relu1 = nn.ReLU()
self.left_padding2 = nn.ConstantPad1d((kernel_size - 1, 0), 0.0)
self.conv1d2 = nn.Conv1d(2 * enc_out_dim, 4 * enc_out_dim, kernel_size, 1, 0)
self.bn2 = nn.BatchNorm1d(4 * enc_out_dim, eps=1e-3, momentum=0.99)
self.relu2 = nn.ReLU()
self.project = nn.Linear(4 * enc_out_dim, llm_embed_dim)
def forward(self, x, mask_pad):
"""
x: B, T, enc_out_dim
mask: (B, T) or (B, 1, T)
"""
x = x.transpose(1, 2) # B, channels, T
# mask batch padding
if mask_pad.size(2) > 0: # time > 0
x.masked_fill_(~mask_pad, 0.0)
x = self.left_padding1(x)
x = self.conv1d1(x)
x = self.bn1(x)
x = self.relu1(x)
x = self.left_padding2(x)
x = self.conv1d2(x)
x = self.bn2(x)
x = self.relu2(x)
x = x.transpose(1, 2)
x = self.project(x)
return x, mask_pad
class LinearAdapter(torch.nn.Module):
def __init__(
self,
enc_out_dim: int = 512,
llm_embed_dim: int = 4096,
):
super().__init__()
self.adpter = torch.nn.Linear(enc_out_dim, llm_embed_dim)
def forward(self, x, mask_pad):
return self.adpter(x), mask_pad
class CNNSubsampling(torch.nn.Module):
def __init__(
self,
enc_out_dim: int = 512,
llm_embed_dim: int = 4096,
kernel_size: int = 5,
activation_func: str = "relu",
norm: str = "batch",
):
super().__init__()
#if enc_out_dim * 4 < llm_embed_dim:
if enc_out_dim * 4 < 0:
self.left_padding1 = nn.ConstantPad1d((kernel_size - 1, 0), 0.0)
self.conv1d1 = nn.Conv1d(enc_out_dim, 2 * enc_out_dim, kernel_size, 1, 0)
self.bn1 = nn.BatchNorm1d(2 * enc_out_dim, eps=1e-3, momentum=0.99)
self.relu1 = nn.ReLU()
self.left_padding2 = nn.ConstantPad1d((0, kernel_size - 1), 0.0)
self.conv1d2 = nn.Conv1d(2 * enc_out_dim, 4 * enc_out_dim, kernel_size, 2, 0)
self.bn2 = nn.BatchNorm1d(4 * enc_out_dim, eps=1e-3, momentum=0.99)
self.relu2 = nn.ReLU()
self.project = nn.Linear(4 * enc_out_dim, llm_embed_dim)
self.cnn_num = 2
else:
self.left_padding2 = nn.ConstantPad1d((0, kernel_size - 1), 0.0)
self.conv1d2 = nn.Conv1d(enc_out_dim, 2 * enc_out_dim, kernel_size, 2, 0)
if norm == "batch":
self.bn2 = nn.BatchNorm1d(2 * enc_out_dim, eps=1e-3, momentum=0.99)
elif norm == "layer":
self.bn2 = nn.LayerNorm(2 * enc_out_dim, eps=1e-3)
if activation_func == "gelu":
self.relu2 = nn.GELU()
else:
self.relu2 = nn.ReLU()
self.project = nn.Linear(2 * enc_out_dim, llm_embed_dim)
self.cnn_num = 1
def forward(self, x, mask_pad):
"""
x: B, T, enc_out_dim
mask: (B, T) or (B, 1, T)
"""
x = x.transpose(1, 2) # B, channels, T
# mask batch padding
if mask_pad.size(2) > 0: # time > 0
x.masked_fill_(~mask_pad, 0.0)
if self.cnn_num == 2:
x = self.left_padding1(x)
x = self.conv1d1(x)
x = self.bn1(x)
x = self.relu1(x)
x = self.left_padding2(x)
x = self.conv1d2(x)
if isinstance(self.bn2, nn.LayerNorm):
x = x.transpose(1, 2)
x = self.bn2(x)
if isinstance(self.bn2, nn.LayerNorm):
x = x.transpose(1, 2)
x = self.relu2(x)
x = x.transpose(1, 2)
x = self.project(x)
return x, mask_pad[:, :, 0::2]