Spaces:
Running
on
L40S
Running
on
L40S
from typing import * | |
import torch | |
from .. import SparseTensor | |
from .. import DEBUG, ATTN | |
if ATTN == 'xformers': | |
import xformers.ops as xops | |
elif ATTN == 'flash_attn': | |
import flash_attn | |
else: | |
raise ValueError(f"Unknown attention module: {ATTN}") | |
__all__ = [ | |
'sparse_scaled_dot_product_attention', | |
] | |
def sparse_scaled_dot_product_attention(qkv: SparseTensor) -> SparseTensor: | |
""" | |
Apply scaled dot product attention to a sparse tensor. | |
Args: | |
qkv (SparseTensor): A [N, *, 3, H, C] sparse tensor containing Qs, Ks, and Vs. | |
""" | |
... | |
def sparse_scaled_dot_product_attention(q: SparseTensor, kv: Union[SparseTensor, torch.Tensor]) -> SparseTensor: | |
""" | |
Apply scaled dot product attention to a sparse tensor. | |
Args: | |
q (SparseTensor): A [N, *, H, C] sparse tensor containing Qs. | |
kv (SparseTensor or torch.Tensor): A [N, *, 2, H, C] sparse tensor or a [N, L, 2, H, C] dense tensor containing Ks and Vs. | |
""" | |
... | |
def sparse_scaled_dot_product_attention(q: torch.Tensor, kv: SparseTensor) -> torch.Tensor: | |
""" | |
Apply scaled dot product attention to a sparse tensor. | |
Args: | |
q (SparseTensor): A [N, L, H, C] dense tensor containing Qs. | |
kv (SparseTensor or torch.Tensor): A [N, *, 2, H, C] sparse tensor containing Ks and Vs. | |
""" | |
... | |
def sparse_scaled_dot_product_attention(q: SparseTensor, k: SparseTensor, v: SparseTensor) -> SparseTensor: | |
""" | |
Apply scaled dot product attention to a sparse tensor. | |
Args: | |
q (SparseTensor): A [N, *, H, Ci] sparse tensor containing Qs. | |
k (SparseTensor): A [N, *, H, Ci] sparse tensor containing Ks. | |
v (SparseTensor): A [N, *, H, Co] sparse tensor containing Vs. | |
Note: | |
k and v are assumed to have the same coordinate map. | |
""" | |
... | |
def sparse_scaled_dot_product_attention(q: SparseTensor, k: torch.Tensor, v: torch.Tensor) -> SparseTensor: | |
""" | |
Apply scaled dot product attention to a sparse tensor. | |
Args: | |
q (SparseTensor): A [N, *, H, Ci] sparse tensor containing Qs. | |
k (torch.Tensor): A [N, L, H, Ci] dense tensor containing Ks. | |
v (torch.Tensor): A [N, L, H, Co] dense tensor containing Vs. | |
""" | |
... | |
def sparse_scaled_dot_product_attention(q: torch.Tensor, k: SparseTensor, v: SparseTensor) -> torch.Tensor: | |
""" | |
Apply scaled dot product attention to a sparse tensor. | |
Args: | |
q (torch.Tensor): A [N, L, H, Ci] dense tensor containing Qs. | |
k (SparseTensor): A [N, *, H, Ci] sparse tensor containing Ks. | |
v (SparseTensor): A [N, *, H, Co] sparse tensor containing Vs. | |
""" | |
... | |
def sparse_scaled_dot_product_attention(*args, **kwargs): | |
arg_names_dict = { | |
1: ['qkv'], | |
2: ['q', 'kv'], | |
3: ['q', 'k', 'v'] | |
} | |
num_all_args = len(args) + len(kwargs) | |
assert num_all_args in arg_names_dict, f"Invalid number of arguments, got {num_all_args}, expected 1, 2, or 3" | |
for key in arg_names_dict[num_all_args][len(args):]: | |
assert key in kwargs, f"Missing argument {key}" | |
if num_all_args == 1: | |
qkv = args[0] if len(args) > 0 else kwargs['qkv'] | |
assert isinstance(qkv, SparseTensor), f"qkv must be a SparseTensor, got {type(qkv)}" | |
assert len(qkv.shape) == 4 and qkv.shape[1] == 3, f"Invalid shape for qkv, got {qkv.shape}, expected [N, *, 3, H, C]" | |
device = qkv.device | |
s = qkv | |
q_seqlen = [qkv.layout[i].stop - qkv.layout[i].start for i in range(qkv.shape[0])] | |
kv_seqlen = q_seqlen | |
qkv = qkv.feats # [T, 3, H, C] | |
elif num_all_args == 2: | |
q = args[0] if len(args) > 0 else kwargs['q'] | |
kv = args[1] if len(args) > 1 else kwargs['kv'] | |
assert isinstance(q, SparseTensor) and isinstance(kv, (SparseTensor, torch.Tensor)) or \ | |
isinstance(q, torch.Tensor) and isinstance(kv, SparseTensor), \ | |
f"Invalid types, got {type(q)} and {type(kv)}" | |
assert q.shape[0] == kv.shape[0], f"Batch size mismatch, got {q.shape[0]} and {kv.shape[0]}" | |
device = q.device | |
if isinstance(q, SparseTensor): | |
assert len(q.shape) == 3, f"Invalid shape for q, got {q.shape}, expected [N, *, H, C]" | |
s = q | |
q_seqlen = [q.layout[i].stop - q.layout[i].start for i in range(q.shape[0])] | |
q = q.feats # [T_Q, H, C] | |
else: | |
assert len(q.shape) == 4, f"Invalid shape for q, got {q.shape}, expected [N, L, H, C]" | |
s = None | |
N, L, H, C = q.shape | |
q_seqlen = [L] * N | |
q = q.reshape(N * L, H, C) # [T_Q, H, C] | |
if isinstance(kv, SparseTensor): | |
assert len(kv.shape) == 4 and kv.shape[1] == 2, f"Invalid shape for kv, got {kv.shape}, expected [N, *, 2, H, C]" | |
kv_seqlen = [kv.layout[i].stop - kv.layout[i].start for i in range(kv.shape[0])] | |
kv = kv.feats # [T_KV, 2, H, C] | |
else: | |
assert len(kv.shape) == 5, f"Invalid shape for kv, got {kv.shape}, expected [N, L, 2, H, C]" | |
N, L, _, H, C = kv.shape | |
kv_seqlen = [L] * N | |
kv = kv.reshape(N * L, 2, H, C) # [T_KV, 2, H, C] | |
elif num_all_args == 3: | |
q = args[0] if len(args) > 0 else kwargs['q'] | |
k = args[1] if len(args) > 1 else kwargs['k'] | |
v = args[2] if len(args) > 2 else kwargs['v'] | |
assert isinstance(q, SparseTensor) and isinstance(k, (SparseTensor, torch.Tensor)) and type(k) == type(v) or \ | |
isinstance(q, torch.Tensor) and isinstance(k, SparseTensor) and isinstance(v, SparseTensor), \ | |
f"Invalid types, got {type(q)}, {type(k)}, and {type(v)}" | |
assert q.shape[0] == k.shape[0] == v.shape[0], f"Batch size mismatch, got {q.shape[0]}, {k.shape[0]}, and {v.shape[0]}" | |
device = q.device | |
if isinstance(q, SparseTensor): | |
assert len(q.shape) == 3, f"Invalid shape for q, got {q.shape}, expected [N, *, H, Ci]" | |
s = q | |
q_seqlen = [q.layout[i].stop - q.layout[i].start for i in range(q.shape[0])] | |
q = q.feats # [T_Q, H, Ci] | |
else: | |
assert len(q.shape) == 4, f"Invalid shape for q, got {q.shape}, expected [N, L, H, Ci]" | |
s = None | |
N, L, H, CI = q.shape | |
q_seqlen = [L] * N | |
q = q.reshape(N * L, H, CI) # [T_Q, H, Ci] | |
if isinstance(k, SparseTensor): | |
assert len(k.shape) == 3, f"Invalid shape for k, got {k.shape}, expected [N, *, H, Ci]" | |
assert len(v.shape) == 3, f"Invalid shape for v, got {v.shape}, expected [N, *, H, Co]" | |
kv_seqlen = [k.layout[i].stop - k.layout[i].start for i in range(k.shape[0])] | |
k = k.feats # [T_KV, H, Ci] | |
v = v.feats # [T_KV, H, Co] | |
else: | |
assert len(k.shape) == 4, f"Invalid shape for k, got {k.shape}, expected [N, L, H, Ci]" | |
assert len(v.shape) == 4, f"Invalid shape for v, got {v.shape}, expected [N, L, H, Co]" | |
N, L, H, CI, CO = *k.shape, v.shape[-1] | |
kv_seqlen = [L] * N | |
k = k.reshape(N * L, H, CI) # [T_KV, H, Ci] | |
v = v.reshape(N * L, H, CO) # [T_KV, H, Co] | |
if DEBUG: | |
if s is not None: | |
for i in range(s.shape[0]): | |
assert (s.coords[s.layout[i]] == i).all(), f"SparseScaledDotProductSelfAttention: batch index mismatch" | |
if num_all_args in [2, 3]: | |
assert q.shape[:2] == [1, sum(q_seqlen)], f"SparseScaledDotProductSelfAttention: q shape mismatch" | |
if num_all_args == 3: | |
assert k.shape[:2] == [1, sum(kv_seqlen)], f"SparseScaledDotProductSelfAttention: k shape mismatch" | |
assert v.shape[:2] == [1, sum(kv_seqlen)], f"SparseScaledDotProductSelfAttention: v shape mismatch" | |
if ATTN == 'xformers': | |
if num_all_args == 1: | |
q, k, v = qkv.unbind(dim=1) | |
elif num_all_args == 2: | |
k, v = kv.unbind(dim=1) | |
q = q.unsqueeze(0) | |
k = k.unsqueeze(0) | |
v = v.unsqueeze(0) | |
mask = xops.fmha.BlockDiagonalMask.from_seqlens(q_seqlen, kv_seqlen) | |
out = xops.memory_efficient_attention(q, k, v, mask)[0] | |
elif ATTN == 'flash_attn': | |
cu_seqlens_q = torch.cat([torch.tensor([0]), torch.cumsum(torch.tensor(q_seqlen), dim=0)]).int().to(device) | |
if num_all_args in [2, 3]: | |
cu_seqlens_kv = torch.cat([torch.tensor([0]), torch.cumsum(torch.tensor(kv_seqlen), dim=0)]).int().to(device) | |
if num_all_args == 1: | |
out = flash_attn.flash_attn_varlen_qkvpacked_func(qkv, cu_seqlens_q, max(q_seqlen)) | |
elif num_all_args == 2: | |
out = flash_attn.flash_attn_varlen_kvpacked_func(q, kv, cu_seqlens_q, cu_seqlens_kv, max(q_seqlen), max(kv_seqlen)) | |
elif num_all_args == 3: | |
out = flash_attn.flash_attn_varlen_func(q, k, v, cu_seqlens_q, cu_seqlens_kv, max(q_seqlen), max(kv_seqlen)) | |
else: | |
raise ValueError(f"Unknown attention module: {ATTN}") | |
if s is not None: | |
return s.replace(out) | |
else: | |
return out.reshape(N, L, H, -1) | |