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139
trellis/modules/sparse/attention/modules.py
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139
trellis/modules/sparse/attention/modules.py
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from typing import *
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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from .. import SparseTensor
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from .full_attn import sparse_scaled_dot_product_attention
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from .serialized_attn import SerializeMode, sparse_serialized_scaled_dot_product_self_attention
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from .windowed_attn import sparse_windowed_scaled_dot_product_self_attention
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from ...attention import RotaryPositionEmbedder
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class SparseMultiHeadRMSNorm(nn.Module):
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def __init__(self, dim: int, heads: int):
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super().__init__()
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self.scale = dim ** 0.5
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self.gamma = nn.Parameter(torch.ones(heads, dim))
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def forward(self, x: Union[SparseTensor, torch.Tensor]) -> Union[SparseTensor, torch.Tensor]:
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x_type = x.dtype
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x = x.float()
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if isinstance(x, SparseTensor):
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x = x.replace(F.normalize(x.feats, dim=-1))
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else:
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x = F.normalize(x, dim=-1)
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return (x * self.gamma * self.scale).to(x_type)
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class SparseMultiHeadAttention(nn.Module):
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def __init__(
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self,
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channels: int,
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num_heads: int,
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ctx_channels: Optional[int] = None,
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type: Literal["self", "cross"] = "self",
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attn_mode: Literal["full", "serialized", "windowed"] = "full",
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window_size: Optional[int] = None,
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shift_sequence: Optional[int] = None,
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shift_window: Optional[Tuple[int, int, int]] = None,
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serialize_mode: Optional[SerializeMode] = None,
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qkv_bias: bool = True,
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use_rope: bool = False,
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qk_rms_norm: bool = False,
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):
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super().__init__()
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assert channels % num_heads == 0
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assert type in ["self", "cross"], f"Invalid attention type: {type}"
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assert attn_mode in ["full", "serialized", "windowed"], f"Invalid attention mode: {attn_mode}"
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assert type == "self" or attn_mode == "full", "Cross-attention only supports full attention"
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assert type == "self" or use_rope is False, "Rotary position embeddings only supported for self-attention"
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self.channels = channels
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self.ctx_channels = ctx_channels if ctx_channels is not None else channels
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self.num_heads = num_heads
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self._type = type
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self.attn_mode = attn_mode
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self.window_size = window_size
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self.shift_sequence = shift_sequence
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self.shift_window = shift_window
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self.serialize_mode = serialize_mode
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self.use_rope = use_rope
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self.qk_rms_norm = qk_rms_norm
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if self._type == "self":
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self.to_qkv = nn.Linear(channels, channels * 3, bias=qkv_bias)
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else:
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self.to_q = nn.Linear(channels, channels, bias=qkv_bias)
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self.to_kv = nn.Linear(self.ctx_channels, channels * 2, bias=qkv_bias)
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if self.qk_rms_norm:
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self.q_rms_norm = SparseMultiHeadRMSNorm(channels // num_heads, num_heads)
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self.k_rms_norm = SparseMultiHeadRMSNorm(channels // num_heads, num_heads)
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self.to_out = nn.Linear(channels, channels)
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if use_rope:
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self.rope = RotaryPositionEmbedder(channels)
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@staticmethod
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def _linear(module: nn.Linear, x: Union[SparseTensor, torch.Tensor]) -> Union[SparseTensor, torch.Tensor]:
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if isinstance(x, SparseTensor):
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return x.replace(module(x.feats))
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else:
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return module(x)
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@staticmethod
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def _reshape_chs(x: Union[SparseTensor, torch.Tensor], shape: Tuple[int, ...]) -> Union[SparseTensor, torch.Tensor]:
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if isinstance(x, SparseTensor):
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return x.reshape(*shape)
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else:
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return x.reshape(*x.shape[:2], *shape)
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def _fused_pre(self, x: Union[SparseTensor, torch.Tensor], num_fused: int) -> Union[SparseTensor, torch.Tensor]:
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if isinstance(x, SparseTensor):
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x_feats = x.feats.unsqueeze(0)
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else:
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x_feats = x
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x_feats = x_feats.reshape(*x_feats.shape[:2], num_fused, self.num_heads, -1)
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return x.replace(x_feats.squeeze(0)) if isinstance(x, SparseTensor) else x_feats
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def _rope(self, qkv: SparseTensor) -> SparseTensor:
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q, k, v = qkv.feats.unbind(dim=1) # [T, H, C]
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q, k = self.rope(q, k, qkv.coords[:, 1:])
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qkv = qkv.replace(torch.stack([q, k, v], dim=1))
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return qkv
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def forward(self, x: Union[SparseTensor, torch.Tensor], context: Optional[Union[SparseTensor, torch.Tensor]] = None) -> Union[SparseTensor, torch.Tensor]:
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if self._type == "self":
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qkv = self._linear(self.to_qkv, x)
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qkv = self._fused_pre(qkv, num_fused=3)
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if self.use_rope:
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qkv = self._rope(qkv)
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if self.qk_rms_norm:
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q, k, v = qkv.unbind(dim=1)
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q = self.q_rms_norm(q)
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k = self.k_rms_norm(k)
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qkv = qkv.replace(torch.stack([q.feats, k.feats, v.feats], dim=1))
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if self.attn_mode == "full":
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h = sparse_scaled_dot_product_attention(qkv)
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elif self.attn_mode == "serialized":
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h = sparse_serialized_scaled_dot_product_self_attention(
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qkv, self.window_size, serialize_mode=self.serialize_mode, shift_sequence=self.shift_sequence, shift_window=self.shift_window
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)
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elif self.attn_mode == "windowed":
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h = sparse_windowed_scaled_dot_product_self_attention(
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qkv, self.window_size, shift_window=self.shift_window
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)
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else:
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q = self._linear(self.to_q, x)
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q = self._reshape_chs(q, (self.num_heads, -1))
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kv = self._linear(self.to_kv, context)
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kv = self._fused_pre(kv, num_fused=2)
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if self.qk_rms_norm:
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q = self.q_rms_norm(q)
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k, v = kv.unbind(dim=1)
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k = self.k_rms_norm(k)
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kv = kv.replace(torch.stack([k.feats, v.feats], dim=1))
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h = sparse_scaled_dot_product_attention(q, kv)
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h = self._reshape_chs(h, (-1,))
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h = self._linear(self.to_out, h)
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return h
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