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168 lines
6.9 KiB
168 lines
6.9 KiB
import math
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import pytest
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import torch
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from einops import rearrange
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from colossalai.kernel.extensions.flash_attention import HAS_FLASH_ATTN, HAS_MEM_EFF_ATTN
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from colossalai.testing import clear_cache_before_run, parameterize
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if HAS_MEM_EFF_ATTN or HAS_FLASH_ATTN:
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from colossalai.nn.layer.colo_attention import AttnMaskType, ColoAttention
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DTYPE = [torch.float16, torch.bfloat16, torch.float32]
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def attention_ref(q, k, v, attn_mask=None, causal=False):
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"""
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attention output of the control group
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"""
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dtype_og = q.dtype
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seqlen_q, seqlen_k = q.shape[1], k.shape[1]
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d = q.shape[-1]
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scale = 1.0 / math.sqrt(d)
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scores = torch.einsum("bthd,bshd->bhts", q * scale, k)
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if attn_mask is not None:
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scores.masked_fill_(rearrange(~attn_mask, "b s -> b 1 1 s"), float("-inf"))
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if causal:
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causal_mask = torch.triu(torch.ones(seqlen_q, seqlen_k, dtype=torch.bool, device=q.device), 1)
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scores.masked_fill_(causal_mask, float("-inf"))
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attention = torch.softmax(scores, dim=-1)
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output = torch.einsum("bhts,bshd->bthd", attention, v)
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output = rearrange(output, "b s h d -> b s (h d)")
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# Modify the data at the positions of the mask to 0
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if attn_mask is not None:
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output.masked_fill_(rearrange(~attn_mask, "b s -> b s 1"), 0.0)
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return output.to(dtype=dtype_og)
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@pytest.mark.skipif(not HAS_MEM_EFF_ATTN and not HAS_FLASH_ATTN, reason="xformers is not available")
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@clear_cache_before_run()
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@parameterize("proj_shape", [(6, 8, 4, 16)])
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@parameterize("dtype", DTYPE)
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@parameterize("dropout", [0.0])
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def test_attention_gpt(proj_shape, dtype, dropout):
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(B, S, H, D_HEAD) = proj_shape
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D = H * D_HEAD
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q = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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k = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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v = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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mask = [torch.ones(S - i, dtype=torch.bool, device="cuda") for i in range(B)]
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mask = torch.nn.utils.rnn.pad_sequence(mask, batch_first=True)
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attn = ColoAttention(D, H, dropout=dropout)
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y = attn(q, k, v, attn_mask=mask, attn_mask_type=AttnMaskType.paddedcausal)
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assert list(y.shape) == [B, S, D]
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out_ref = attention_ref(q, k, v, mask, causal=True)
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# check gradients
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dy = torch.rand_like(y)
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grad_q, grad_k, grad_v = torch.autograd.grad(y, (q, k, v), dy)
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grad_ref_q, grad_ref_k, grad_ref_v = torch.autograd.grad(out_ref, (q, k, v), dy)
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torch.allclose(y, out_ref, atol=1e-7), f"{(y - out_ref).abs().max()}"
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torch.allclose(grad_q, grad_ref_q, atol=1e-7), f"{(grad_q - grad_ref_q).abs().max()}"
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torch.allclose(grad_k, grad_ref_k, atol=1e-7), f"{(grad_k - grad_ref_k).abs().max()}"
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torch.allclose(grad_v, grad_ref_v, atol=1e-7), f"{(grad_v - grad_ref_v).abs().max()}"
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@pytest.mark.skipif(not HAS_MEM_EFF_ATTN and not HAS_FLASH_ATTN, reason="xformers is not available")
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@clear_cache_before_run()
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@parameterize("proj_shape", [(6, 8, 4, 16)])
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@parameterize("dtype", DTYPE)
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@parameterize("dropout", [0.0])
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def test_attention_bert(proj_shape, dtype, dropout):
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(B, S, H, D_HEAD) = proj_shape
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D = H * D_HEAD
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q = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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k = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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v = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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# attention mask of shape [B, S] with zero padding to max length S
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mask = torch.randint(0, 2, (B, S), dtype=torch.bool, device="cuda")
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attn = ColoAttention(D, H, dropout=dropout)
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y = attn(q, k, v, attn_mask=mask, attn_mask_type=AttnMaskType.padding)
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assert list(y.shape) == [B, S, D]
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out_ref = attention_ref(q, k, v, mask, causal=False)
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dy = torch.rand_like(y)
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grad_q, grad_k, grad_v = torch.autograd.grad(y, (q, k, v), dy)
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grad_ref_q, grad_ref_k, grad_ref_v = torch.autograd.grad(out_ref, (q, k, v), dy)
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torch.allclose(y, out_ref, atol=1e-7), f"{(y - out_ref).abs().max()}"
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torch.allclose(grad_q, grad_ref_q, atol=1e-7), f"{(grad_q - grad_ref_q).abs().max()}"
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torch.allclose(grad_k, grad_ref_k, atol=1e-7), f"{(grad_k - grad_ref_k).abs().max()}"
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torch.allclose(grad_v, grad_ref_v, atol=1e-7), f"{(grad_v - grad_ref_v).abs().max()}"
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@pytest.mark.skipif(not HAS_MEM_EFF_ATTN and not HAS_FLASH_ATTN, reason="xformers is not available")
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@clear_cache_before_run()
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@parameterize("proj_shape", [(6, 8, 4, 16)])
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@parameterize("dtype", DTYPE)
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@parameterize("dropout", [0.0])
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def test_attention_no_mask(proj_shape, dtype, dropout):
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(B, S, H, D_HEAD) = proj_shape
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D = H * D_HEAD
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q = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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k = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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v = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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attn = ColoAttention(D, H, dropout=dropout)
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y = attn(q, k, v)
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assert list(y.shape) == [B, S, D]
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out_ref = attention_ref(q, k, v, None, causal=False)
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dy = torch.rand_like(y)
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grad_q, grad_k, grad_v = torch.autograd.grad(y, (q, k, v), dy)
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grad_ref_q, grad_ref_k, grad_ref_v = torch.autograd.grad(out_ref, (q, k, v), dy)
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torch.allclose(y, out_ref, atol=1e-7), f"{(y - out_ref).abs().max()}"
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torch.allclose(grad_q, grad_ref_q, atol=1e-7), f"{(grad_q - grad_ref_q).abs().max()}"
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torch.allclose(grad_k, grad_ref_k, atol=1e-7), f"{(grad_k - grad_ref_k).abs().max()}"
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torch.allclose(grad_v, grad_ref_v, atol=1e-7), f"{(grad_v - grad_ref_v).abs().max()}"
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@pytest.mark.skipif(not HAS_MEM_EFF_ATTN and not HAS_FLASH_ATTN, reason="xformers is not available")
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@clear_cache_before_run()
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@parameterize("proj_shape", [(6, 24, 8, 4, 16)])
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@parameterize("dtype", DTYPE)
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@parameterize("dropout", [0.0])
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def test_cross_attention(proj_shape, dtype, dropout):
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(B, S, T, H, D_HEAD) = proj_shape
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D = H * D_HEAD
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q = torch.randn((B, T, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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k = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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v = torch.randn((B, S, H, D_HEAD), dtype=dtype, device="cuda", requires_grad=True)
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attn = ColoAttention(D, H, dropout=dropout)
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y = attn(q, k, v, attn_mask_type=AttnMaskType.causal)
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assert list(y.shape) == [B, T, D]
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out_ref = attention_ref(q, k, v, None, causal=True)
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dy = torch.rand_like(y)
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grad_q, grad_k, grad_v = torch.autograd.grad(y, (q, k, v), dy)
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grad_ref_q, grad_ref_k, grad_ref_v = torch.autograd.grad(out_ref, (q, k, v), dy)
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torch.allclose(y, out_ref, atol=1e-18), f"{(y - out_ref).abs().max()}"
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torch.allclose(grad_q, grad_ref_q, atol=1e-7), f"{(grad_q - grad_ref_q).abs().max()}"
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torch.allclose(grad_k, grad_ref_k, atol=1e-7), f"{(grad_k - grad_ref_k).abs().max()}"
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torch.allclose(grad_v, grad_ref_v, atol=1e-7), f"{(grad_v - grad_ref_v).abs().max()}"
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