178ca1607e
### What this PR does / why we need it?
The main goal of this PR to alleviate the high maintenance burden from
model duplication when we are going to do the model optimization. Some
of our optimized models diverges a little from the vllm's modeling, but
needs to rewrite several part of original one, brings negligible
maintenance bruden to the vllm-ascend.In order to solve that, we propose
to leverage `torch.compile` and `inductor pattern matcher`,
automatically fuse the pattern we want to merge. For more details can
refer to the RFC https://github.com/vllm-project/vllm-ascend/issues/4239
This pr integrates `AddRMSNorm` and the `Quant` operator, which can
improve the inference speed of models using `w8a8 `quantization.
### Does this PR introduce _any_ user-facing change?
Yes, add new additional_config
### How was this patch tested?
```python
def main():
prompts = [
"The president of the United States is Mr.",
]
# Create a sampling params object.
sampling_params = SamplingParams(max_tokens=100, temperature=0.6, top_k=40, top_p=0.95)
# Create an LLM.
llm = LLM(
model="/root/.cache/modelscope/hub/models/vllm-ascend/Qwen3-8B-W8A8",
# enforce_eager=True,
tensor_parallel_size=1,
trust_remote_code=True,
gpu_memory_utilization=0.7,
quantization="ascend",
)
# Generate texts from the prompts.
outputs = llm.generate(prompts, sampling_params)
for output in outputs:
prompt = output.prompt
generated_text = output.outputs[0].text
print(f"Prompt: {prompt!r}, Generated text: {generated_text!r}")
```
```text
Prompt: 'The president of the United States is Mr.', Generated text: ' Trump. The president of the United States is Mr. Biden. Which of the following statements is correct? \n\nA. Mr. Trump is Mr. Biden. \nB. Mr. Trump is not Mr. Biden. \nC. The president of the United States is not Mr. Trump. \nD. The president of the United States is not Mr. Biden.\n\nThe question presents a contradiction: it states that "The president of the United States is Mr. Trump" and "The president of'
```
- vLLM version: 86e178f7c4d8c3b0eaf3c8e3f810a83f63b90e24
- vLLM main:
86e178f7c4
---------
Signed-off-by: Icey <1790571317@qq.com>
Signed-off-by: wxsIcey <1790571317@qq.com>
199 lines
8.2 KiB
Python
199 lines
8.2 KiB
Python
import math
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from contextlib import contextmanager
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from enum import Enum
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from typing import TYPE_CHECKING, Any, Optional
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import torch
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from vllm.config import CUDAGraphMode, VllmConfig
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from vllm.distributed import (get_dp_group, get_ep_group,
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get_tensor_model_parallel_world_size)
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from vllm.forward_context import (BatchDescriptor, get_forward_context,
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set_forward_context)
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import vllm_ascend.envs as envs_ascend
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from vllm_ascend.utils import (enable_sp, flashcomm2_enable, has_layer_idx,
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is_moe_model)
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if TYPE_CHECKING:
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from vllm_ascend.ops.weight_prefetch import WeightPrefetchMethod
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else:
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WeightPrefetchMethod = None
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class FusedMoEState(Enum):
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AllGather = 0
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All2All = 1
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MC2 = 2
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AllGatherEP = 3
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NaiveMulticast = 4
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All2AllSeq = 5
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def get_fused_moe_state(ep_size: int, with_prefill: bool,
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is_deepseek_v3_r1: bool):
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# the fusion operator torch_npu.npu_grouped_matmul_finalize_routing called by allgather ep
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# only supports deepseek v3/r1
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if (envs_ascend.VLLM_ENABLE_FUSED_EXPERTS_ALLGATHER_EP and ep_size > 1
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and is_deepseek_v3_r1):
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return FusedMoEState.AllGatherEP
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elif ep_size == 1:
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if with_prefill:
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return FusedMoEState.NaiveMulticast
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else:
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return FusedMoEState.AllGather
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# NOTE: mc2 need ep_size >= 16 & all2all can't use in torchair graph.
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elif ep_size < 16 or with_prefill:
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return FusedMoEState.All2All
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else:
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return FusedMoEState.MC2
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class MoECommType(Enum):
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ALLGATHER = 0
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MC2 = 1
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ALLTOALL = 2
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@contextmanager
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def set_ascend_forward_context(
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attn_metadata: Any,
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vllm_config: VllmConfig,
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virtual_engine: int = 0,
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num_tokens: Optional[int] = None,
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num_tokens_across_dp: Optional[torch.Tensor] = None,
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with_prefill: bool = True,
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in_profile_run: bool = False,
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reserved_mc2_mask: Optional[torch.Tensor] = None,
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moe_comm_type: Optional[MoECommType] = None,
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num_actual_tokens: Optional[int] = None,
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aclgraph_runtime_mode: CUDAGraphMode = CUDAGraphMode.NONE,
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batch_descriptor: Optional[BatchDescriptor] = None,
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prefetch_stream: torch.npu.Stream = None,
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model_instance: torch.nn.Module = None,
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weight_prefetch_method: Optional[WeightPrefetchMethod] = None,
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is_mtp_model=False):
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"""A context manager that stores the current forward context,
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can be attention metadata, etc.
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We add some additional param into forward_context.
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"""
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with set_forward_context(
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attn_metadata,
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vllm_config,
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virtual_engine=virtual_engine,
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num_tokens=num_tokens,
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num_tokens_across_dp=num_tokens_across_dp,
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cudagraph_runtime_mode=aclgraph_runtime_mode,
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batch_descriptor=batch_descriptor,
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):
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forward_context = get_forward_context()
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from vllm_ascend.ops.fused_moe.moe_comm_method import \
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get_moe_comm_method
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forward_context.moe_comm_type = moe_comm_type
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forward_context.moe_comm_method = get_moe_comm_method(moe_comm_type)
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forward_context.with_prefill = with_prefill
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tp_world_size = get_tensor_model_parallel_world_size()
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ep_size = (get_ep_group().world_size if
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vllm_config.parallel_config.enable_expert_parallel else 1)
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# fused_moe_state is used in torchair, it will be deleted along with torchair
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is_deepseek_v3_r1 = hasattr(
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vllm_config.model_config.hf_config, 'n_routed_experts'
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) and vllm_config.model_config.hf_config.n_routed_experts == 256
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fused_moe_state = get_fused_moe_state(ep_size, with_prefill,
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is_deepseek_v3_r1)
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forward_context.fused_moe_state = fused_moe_state
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forward_context.in_profile_run = in_profile_run
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# NOTE: This cannot be set using set_forward_context
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# due to multiple warmups before actual capturing
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forward_context.capturing = False
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# set for sequence parallelism, 1000 is the batch size concurrency threshold for enabling the flashcomm_v1 or sequence_parallelism feature.
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# Currently, it is an empirical value. In normal scenarios, if the concurrency exceeds this threshold,
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# the performance benefits can be maximized. Conversely, if the concurrency is below the threshold,
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# the performance may degrade due to the switching of communication methods.
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mmrs_fusion = True
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if is_moe_model(vllm_config):
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sp_enabled = enable_sp(vllm_config) and num_tokens is not None
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mmrs_fusion = False
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else:
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sp_enabled = enable_sp(vllm_config) and \
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num_tokens is not None and num_tokens > 1000
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forward_context.mmrs_fusion = mmrs_fusion
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forward_context.num_tokens = num_tokens
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forward_context.sp_enabled = sp_enabled
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#TODO(Levi-JQ): another PR to normalize the enabling logic for sp/fc2
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forward_context.flashcomm_v2_enabled = flashcomm2_enable(
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) and tp_world_size > 1 and num_tokens is not None
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if (forward_context.sp_enabled
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or forward_context.flashcomm_v2_enabled):
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pad_size = (tp_world_size -
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(num_tokens % tp_world_size)) % tp_world_size
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forward_context.pad_size = pad_size
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# set this for rope forward_oot using
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forward_context.is_first_layer = True
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# set layer_idx to enable optimization features that depend on this information.
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# This is only applicable to models that contain these necessary attributes.
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forward_context.layer_idx = None
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if has_layer_idx(model_instance):
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forward_context.layer_idx = model_instance.model.start_layer
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# TODO(rjg-lyh): refactor mlp weight prefetch method
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# set for mlp weight prefetch
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prefetch_mlp_enabled = envs_ascend.VLLM_ASCEND_ENABLE_DENSE_OPTIMIZE and \
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envs_ascend.VLLM_ASCEND_ENABLE_PREFETCH_MLP and \
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forward_context.layer_idx is not None and \
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num_tokens is not None and num_tokens < 500
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if prefetch_mlp_enabled:
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forward_context.prefetch_stream = prefetch_stream
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forward_context.model_instance = model_instance
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forward_context.prefetch_mlp_gate_up_proj = False
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forward_context.prefetch_mlp_down_proj = False
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forward_context.prefetch_mlp_enabled = prefetch_mlp_enabled
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forward_context.model_instance = model_instance
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forward_context.weight_prefetch_method = weight_prefetch_method
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forward_context.is_mtp_model = is_mtp_model
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if num_tokens is None and attn_metadata is not None:
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num_tokens = attn_metadata.num_actual_tokens
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dp_world_size = get_dp_group().world_size
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if dp_world_size > 1 and forward_context.dp_metadata is not None:
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max_tokens_across_dp = \
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forward_context.dp_metadata.max_tokens_across_dp_cpu.item()
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if (forward_context.sp_enabled
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or forward_context.flashcomm_v2_enabled):
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padded_length = (max_tokens_across_dp + tp_world_size -
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1) // tp_world_size * tp_world_size
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pad_size = padded_length - num_tokens
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forward_context.padded_length = padded_length
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forward_context.pad_size = pad_size
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else:
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max_tokens_across_dp = num_tokens
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forward_context.max_tokens_across_dp = max_tokens_across_dp
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if num_tokens is not None:
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if num_actual_tokens is None:
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num_actual_tokens = num_tokens
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# NOTE: token num which need to pad to when mc2
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forward_context.padded_num_tokens = math.ceil(
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max_tokens_across_dp / tp_world_size) * tp_world_size
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if reserved_mc2_mask is not None:
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mc2_mask = reserved_mc2_mask[:forward_context.
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padded_num_tokens]
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mc2_mask[:num_actual_tokens] = True
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mc2_mask[num_actual_tokens:] = False
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forward_context.mc2_mask = mc2_mask
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try:
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yield
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finally:
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pass
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