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from typing import * | |
import torch | |
import torch.nn as nn | |
import torch.nn.functional as F | |
from .full_attn import scaled_dot_product_attention | |
class MultiHeadRMSNorm(nn.Module): | |
def __init__(self, dim: int, heads: int): | |
super().__init__() | |
self.scale = dim ** 0.5 | |
self.gamma = nn.Parameter(torch.ones(heads, dim)) | |
def forward(self, x: torch.Tensor) -> torch.Tensor: | |
return (F.normalize(x.float(), dim = -1) * self.gamma * self.scale).to(x.dtype) | |
class RotaryPositionEmbedder(nn.Module): | |
def __init__(self, hidden_size: int, in_channels: int = 3): | |
super().__init__() | |
assert hidden_size % 2 == 0, "Hidden size must be divisible by 2" | |
self.hidden_size = hidden_size | |
self.in_channels = in_channels | |
self.freq_dim = hidden_size // in_channels // 2 | |
self.freqs = torch.arange(self.freq_dim, dtype=torch.float32) / self.freq_dim | |
self.freqs = 1.0 / (10000 ** self.freqs) | |
def _get_phases(self, indices: torch.Tensor) -> torch.Tensor: | |
self.freqs = self.freqs.to(indices.device) | |
phases = torch.outer(indices, self.freqs) | |
phases = torch.polar(torch.ones_like(phases), phases) | |
return phases | |
def _rotary_embedding(self, x: torch.Tensor, phases: torch.Tensor) -> torch.Tensor: | |
x_complex = torch.view_as_complex(x.float().reshape(*x.shape[:-1], -1, 2)) | |
x_rotated = x_complex * phases | |
x_embed = torch.view_as_real(x_rotated).reshape(*x_rotated.shape[:-1], -1).to(x.dtype) | |
return x_embed | |
def forward(self, q: torch.Tensor, k: torch.Tensor, indices: Optional[torch.Tensor] = None) -> Tuple[torch.Tensor, torch.Tensor]: | |
""" | |
Args: | |
q (sp.SparseTensor): [..., N, D] tensor of queries | |
k (sp.SparseTensor): [..., N, D] tensor of keys | |
indices (torch.Tensor): [..., N, C] tensor of spatial positions | |
""" | |
if indices is None: | |
indices = torch.arange(q.shape[-2], device=q.device) | |
if len(q.shape) > 2: | |
indices = indices.unsqueeze(0).expand(q.shape[:-2] + (-1,)) | |
phases = self._get_phases(indices.reshape(-1)).reshape(*indices.shape[:-1], -1) | |
if phases.shape[1] < self.hidden_size // 2: | |
phases = torch.cat([phases, torch.polar( | |
torch.ones(*phases.shape[:-1], self.hidden_size // 2 - phases.shape[1], device=phases.device), | |
torch.zeros(*phases.shape[:-1], self.hidden_size // 2 - phases.shape[1], device=phases.device) | |
)], dim=-1) | |
q_embed = self._rotary_embedding(q, phases) | |
k_embed = self._rotary_embedding(k, phases) | |
return q_embed, k_embed | |
class MultiHeadAttention(nn.Module): | |
def __init__( | |
self, | |
channels: int, | |
num_heads: int, | |
ctx_channels: Optional[int]=None, | |
type: Literal["self", "cross"] = "self", | |
attn_mode: Literal["full", "windowed"] = "full", | |
window_size: Optional[int] = None, | |
shift_window: Optional[Tuple[int, int, int]] = None, | |
qkv_bias: bool = True, | |
use_rope: bool = False, | |
qk_rms_norm: bool = False, | |
): | |
super().__init__() | |
assert channels % num_heads == 0 | |
assert type in ["self", "cross"], f"Invalid attention type: {type}" | |
assert attn_mode in ["full", "windowed"], f"Invalid attention mode: {attn_mode}" | |
assert type == "self" or attn_mode == "full", "Cross-attention only supports full attention" | |
if attn_mode == "windowed": | |
raise NotImplementedError("Windowed attention is not yet implemented") | |
self.channels = channels | |
self.head_dim = channels // num_heads | |
self.ctx_channels = ctx_channels if ctx_channels is not None else channels | |
self.num_heads = num_heads | |
self._type = type | |
self.attn_mode = attn_mode | |
self.window_size = window_size | |
self.shift_window = shift_window | |
self.use_rope = use_rope | |
self.qk_rms_norm = qk_rms_norm | |
if self._type == "self": | |
self.to_qkv = nn.Linear(channels, channels * 3, bias=qkv_bias) | |
else: | |
self.to_q = nn.Linear(channels, channels, bias=qkv_bias) | |
self.to_kv = nn.Linear(self.ctx_channels, channels * 2, bias=qkv_bias) | |
if self.qk_rms_norm: | |
self.q_rms_norm = MultiHeadRMSNorm(self.head_dim, num_heads) | |
self.k_rms_norm = MultiHeadRMSNorm(self.head_dim, num_heads) | |
self.to_out = nn.Linear(channels, channels) | |
if use_rope: | |
self.rope = RotaryPositionEmbedder(channels) | |
def forward(self, x: torch.Tensor, context: Optional[torch.Tensor] = None, indices: Optional[torch.Tensor] = None) -> torch.Tensor: | |
B, L, C = x.shape | |
if self._type == "self": | |
qkv = self.to_qkv(x) | |
qkv = qkv.reshape(B, L, 3, self.num_heads, -1) | |
if self.use_rope: | |
q, k, v = qkv.unbind(dim=2) | |
q, k = self.rope(q, k, indices) | |
qkv = torch.stack([q, k, v], dim=2) | |
if self.attn_mode == "full": | |
if self.qk_rms_norm: | |
q, k, v = qkv.unbind(dim=2) | |
q = self.q_rms_norm(q) | |
k = self.k_rms_norm(k) | |
h = scaled_dot_product_attention(q, k, v) | |
else: | |
h = scaled_dot_product_attention(qkv) | |
elif self.attn_mode == "windowed": | |
raise NotImplementedError("Windowed attention is not yet implemented") | |
else: | |
Lkv = context.shape[1] | |
q = self.to_q(x) | |
kv = self.to_kv(context) | |
q = q.reshape(B, L, self.num_heads, -1) | |
kv = kv.reshape(B, Lkv, 2, self.num_heads, -1) | |
if self.qk_rms_norm: | |
q = self.q_rms_norm(q) | |
k, v = kv.unbind(dim=2) | |
k = self.k_rms_norm(k) | |
h = scaled_dot_product_attention(q, k, v) | |
else: | |
h = scaled_dot_product_attention(q, kv) | |
h = h.reshape(B, L, -1) | |
h = self.to_out(h) | |
return h | |