9e2965bae2
## Summary
Flash Comm V1 (flashcomm1) was previously blocked for all VL models.
**Root cause:** For VL models, `inputs_embeds` at layer 0 originates
from the vision encoder as a full `[N, H]` tensor — it has **not** been
reduce-scattered across TP ranks. The original MLA forward path assumed
inputs were already scattered, producing wrong output shapes under TP >
1.
**Fix:**
- Detect at init time (statically, not via runtime shape checks) whether
a layer is the first layer of a VL model (`is_vl_first_layer`) so dynamo
treats the branch as a constant.
- In `AscendMultiHeadLatentAttention.forward`, when `flashcomm1 + TP > 1
+ is_vl_first_layer`, set `need_gather_q_kv=False` and pre-allocate
output as `[N//tp_size, H]`.
- Remove the platform-level assertion that prevented VL models from
enabling Flash Comm V1.
**Other improvements:**
- `is_vl_model()` now uses vllm's canonical detection (`hf_config is not
hf_text_config`) instead of fragile key-name checks, with the old checks
kept as fallback.
- Added `parse_layer_idx(prefix)` utility.
- Added `maybe_chunk_residual` call in `AscendRMSNorm` before the
add-rms-norm op.
- Removed unnecessary CPU/fp32 round-trip in
`AscendLearnable2DInterpPosEmbDivided_fixed.forward()`.
- vLLM version: v0.17.0
- vLLM main:
4034c3d32e
---------
Signed-off-by: SlightwindSec <slightwindsec@gmail.com>
Co-authored-by: LoganJane <loganJane73@hotmail.com>
177 lines
6.6 KiB
Python
177 lines
6.6 KiB
Python
#
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# Copyright (c) 2025 Huawei Technologies Co., Ltd. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# This file is a part of the vllm-ascend project.
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#
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import torch
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from torch import nn
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from vllm.config import get_current_vllm_config
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from vllm.model_executor.layers.layernorm import GemmaRMSNorm, RMSNorm, RMSNormGated
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from vllm_ascend.ops.triton.layernorm_gated import layer_norm_fwd_npu
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from vllm_ascend.utils import enable_custom_op, get_weight_prefetch_method
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class AscendRMSNorm(RMSNorm):
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def __init__(
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self,
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hidden_size: int,
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eps: float = 1e-6,
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var_hidden_size: int | None = None,
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has_weight: bool = True,
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dtype: torch.dtype | None = None,
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) -> None:
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super().__init__(hidden_size, eps, var_hidden_size, has_weight, dtype)
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vllm_config = get_current_vllm_config()
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self.bias = None
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self.bias_loaded = False
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# quantization with anti_method m4 will generate none-zero norm bias
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if vllm_config.quant_config is not None and any(
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"norm.bias" in name for name in vllm_config.quant_config.quant_description
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):
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self.bias = torch.nn.Parameter(torch.zeros(hidden_size), requires_grad=False)
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self.bias.weight_loader = self._bias_weight_loader
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def _bias_weight_loader(self, param: torch.nn.Parameter, loaded_weight: torch.Tensor) -> None:
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if param.numel() == 1 and loaded_weight.numel() == 1:
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# Sometimes scalar values aren't considered tensors with shapes
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# so if both param and loaded_weight are a scalar,
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# "broadcast" instead of copy
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param.data.fill_(loaded_weight.item())
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else:
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assert param.size() == loaded_weight.size(), (
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f"Attempted to load weight ({loaded_weight.size()}) into parameter ({param.size()})"
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)
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param.data.copy_(loaded_weight)
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self.bias_loaded = True
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def forward_oot(
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self,
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x: torch.Tensor,
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residual: torch.Tensor | None = None,
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) -> torch.Tensor | tuple[torch.Tensor, torch.Tensor]:
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import torch_npu
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if residual is not None:
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residual = torch.ops.vllm.maybe_chunk_residual(x, residual)
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if enable_custom_op():
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x, _, residual = torch.ops._C_ascend.npu_add_rms_norm_bias(
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x, residual, self.weight, self.bias, self.variance_epsilon
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)
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else:
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x, _, residual = torch_npu.npu_add_rms_norm(x, residual, self.weight, self.variance_epsilon)
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if self.bias is not None:
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x.add_(self.bias)
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return x, residual
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x, residual = torch_npu.npu_rms_norm(x, self.weight, self.variance_epsilon)
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if self.bias_loaded:
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x.add_(self.bias)
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weight_prefetch_method = get_weight_prefetch_method()
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weight_prefetch_method.maybe_prefetch_mlp_weight_postprocess(x)
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return x
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class AscendGemmaRMSNorm(GemmaRMSNorm):
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def forward_oot(
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self,
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x: torch.Tensor,
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residual: torch.Tensor | None = None,
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) -> torch.Tensor | tuple[torch.Tensor, torch.Tensor]:
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import torch_npu
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if residual is not None:
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if enable_custom_op():
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x, _, residual = torch.ops._C_ascend.npu_add_rms_norm_bias(
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x, residual, 1.0 + self.weight, None, self.variance_epsilon
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)
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else:
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x, _, residual = torch_npu.npu_add_rms_norm(x, residual, 1.0 + self.weight, self.variance_epsilon)
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return x, residual
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x, _ = torch.ops._C_ascend.npu_gemma_rms_norm(x, self.weight, self.variance_epsilon)
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return x
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class LayerNormFn(torch.autograd.Function):
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@staticmethod
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def forward(ctx, x, weight, bias, z=None, eps=1e-6, group_size=None, norm_before_gate=True, is_rms_norm=False):
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"""If z is not None, we do norm(x) * silu(z) if norm_before_gate, else norm(x * silu(z))"""
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x_shape_og = x.shape
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# reshape input data into 2D tensor
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x = x.reshape(-1, x.shape[-1])
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if x.stride(-1) != 1:
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x = x.contiguous()
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if z is not None:
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assert z.shape == x_shape_og
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z = z.reshape(-1, z.shape[-1])
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if z.stride(-1) != 1:
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z = z.contiguous()
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weight = weight.contiguous()
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if bias is not None:
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bias = bias.contiguous()
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y, mean, rstd = layer_norm_fwd_npu(
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x,
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weight,
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bias,
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eps,
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z=z,
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group_size=group_size,
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norm_before_gate=norm_before_gate,
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is_rms_norm=is_rms_norm,
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)
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ctx.save_for_backward(x, weight, bias, mean, rstd, z)
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ctx.x_shape_og = x_shape_og
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ctx.eps = eps
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ctx.group_size = group_size
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ctx.norm_before_gate = norm_before_gate
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ctx.is_rms_norm = is_rms_norm
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return y.reshape(x_shape_og)
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class AscendRMSNormGated(RMSNormGated):
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def __init__(
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self,
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hidden_size,
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eps: float = 1e-5,
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group_size: int | None = None,
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norm_before_gate: bool = False,
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device: torch.device | None = None,
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dtype: torch.dtype | None = None,
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):
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"""If group_size is not None, we do GroupNorm with each group having group_size elements.
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group_size=None is equivalent to group_size=hidden_size (i.e. there's only 1 group).
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"""
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factory_kwargs = {"device": device, "dtype": dtype}
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super().__init__(hidden_size, eps, group_size, norm_before_gate, device, dtype)
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self.eps = eps
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self.weight = nn.Parameter(torch.empty(hidden_size, **factory_kwargs))
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self.register_parameter("bias", None)
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self.group_size = group_size
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self.norm_before_gate = norm_before_gate
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self.reset_parameters()
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def reset_parameters(self):
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torch.nn.init.ones_(self.weight)
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def forward_oot(self, x, z=None):
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"""If z is not None, we do norm(x) * silu(z) if norm_before_gate, else norm(x * silu(z))"""
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return LayerNormFn.apply(x, self.weight, self.bias, z, self.eps, self.group_size, self.norm_before_gate, True)
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