Open-Sora / tests /test_seq_parallel_attention.py
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import colossalai
import torch
import torch.distributed as dist
from colossalai.testing import spawn
from opensora.acceleration.communications import gather_forward_split_backward, split_forward_gather_backward
from opensora.acceleration.parallel_states import set_sequence_parallel_group
from opensora.models.layers.blocks import (
Attention,
MultiHeadCrossAttention,
SeqParallelAttention,
SeqParallelMultiHeadCrossAttention,
)
def run_attention(rank, world_size):
# create model
torch.manual_seed(1024)
set_sequence_parallel_group(dist.group.WORLD)
seq_parallel_attention = SeqParallelAttention(dim=256, num_heads=4, qkv_bias=True, enable_flashattn=False).cuda()
torch.manual_seed(1024)
attention = Attention(
dim=256,
num_heads=4,
qkv_bias=True,
enable_flashattn=False,
).cuda()
# create inputs
torch.manual_seed(1024)
x = torch.randn(4, 64, 256).cuda()
seq_x = x.clone().detach()
x.requires_grad = True
x.retain_grad()
seq_x.requires_grad = True
seq_x.retain_grad()
sub_seq_x = split_forward_gather_backward(seq_x, dist.group.WORLD, dim=1, grad_scale="down")
# run model
out = attention(x)
sub_seq_out = seq_parallel_attention(sub_seq_x)
seq_out = gather_forward_split_backward(sub_seq_out, dist.group.WORLD, dim=1, grad_scale="up")
assert torch.allclose(seq_out, out, atol=1e-7), f"{seq_out}\nvs\n{out}"
# run backward
seq_out.mean().backward()
out.mean().backward()
# all reduce gradient for sp
for p in seq_parallel_attention.parameters():
if p.grad is not None:
dist.all_reduce(p.grad, group=dist.group.WORLD)
p.grad.div_(world_size)
# check grad
for p1, p2 in zip(seq_parallel_attention.parameters(), attention.parameters()):
assert torch.allclose(p1.grad, p2.grad, atol=1e-7), f"{p1.grad}\nvs\n{p2.grad}"
# check input grad
assert torch.allclose(x.grad, seq_x.grad, atol=1e-7), f"{x.grad}\nvs\n{seq_x.grad}"
def run_cross_attention(rank, world_size):
# create model
torch.manual_seed(1024)
set_sequence_parallel_group(dist.group.WORLD)
seq_parallel_attention = SeqParallelMultiHeadCrossAttention(
d_model=256,
num_heads=4,
).cuda().to(torch.bfloat16)
torch.manual_seed(1024)
attention = MultiHeadCrossAttention(
d_model=256,
num_heads=4,
).cuda().to(torch.bfloat16)
# make sure the weights are the same
for p1, p2 in zip(seq_parallel_attention.parameters(), attention.parameters()):
p1.data.copy_(p2.data)
# create inputs
torch.manual_seed(1024)
x = torch.randn(4, 64, 256).cuda().to(torch.bfloat16)
y = torch.randn(4, 32, 256).cuda().to(torch.bfloat16)
mask = [2, 10, 8, 16]
mask = None
seq_x = x.clone().detach()
seq_y = y.clone().detach()
# set grad
x.requires_grad = True
x.retain_grad()
seq_x.requires_grad = True
seq_x.retain_grad()
y.requires_grad = True
y.retain_grad()
seq_y.requires_grad = True
seq_y.retain_grad()
# split by sequence
sub_seq_x = split_forward_gather_backward(seq_x, dist.group.WORLD, dim=1, grad_scale="down")
# run model
out = attention(x, y, mask)
sub_seq_out = seq_parallel_attention(sub_seq_x, seq_y, mask)
seq_out = gather_forward_split_backward(sub_seq_out, dist.group.WORLD, dim=1, grad_scale="up")
assert torch.allclose(seq_out, out, rtol=1e-5, atol=1e-6), f"\n{seq_out}\nvs\n{out}"
# run backward
seq_out.mean().backward()
out.mean().backward()
# all reduce gradient for sp
for name, p in seq_parallel_attention.named_parameters():
if p.grad is not None:
dist.all_reduce(p.grad, group=dist.group.WORLD)
p.grad.div_(world_size)
else:
print(f"grad of {name} is None")
# # check grad
for p1, p2 in zip(seq_parallel_attention.named_parameters(), attention.named_parameters()):
assert torch.allclose(p1[1].grad, p2[1].grad, rtol=1e-3, atol=1e-4), f"\n{p1[0]}\nvs\n{p2[0]}:\n{p1[1].grad}\nvs\n{p2[1].grad}"
# # check input grad
assert torch.allclose(x.grad, seq_x.grad, atol=1e-7), f"{x.grad}\nvs\n{seq_x.grad}"
assert torch.allclose(y.grad, seq_y.grad, atol=1e-7), f"{y.grad}\nvs\n{seq_y.grad}"
def run_dist(rank, world_size, port):
colossalai.launch({}, rank=rank, world_size=world_size, host="localhost", port=port)
# run_attention(rank, world_size)
run_cross_attention(rank, world_size)
def test_seq_parallel_attention():
spawn(run_dist, nprocs=2)
if __name__ == "__main__":
test_seq_parallel_attention()