922e5c163b
### What this PR does / why we need it? 1. Fix `TypeError: FusedMoEParallelConfig.__init__() missing 1 required positional argument: 'is_sequence_parallel'` due to https://github.com/vllm-project/vllm/pull/32567 2. Fix ` TypeError: '>' not supported between instances of 'MagicMock' and 'int'` due to https://github.com/vllm-project/vllm/pull/33035 3. Fix `TypeError: Can't instantiate abstract class AscendMLAImpl with abstract methods forward_mha, forward_mqa` and AttributeError: 'bool' object has no attribute 'process_weights_after_loading' due to https://github.com/vllm-project/vllm/pull/33284 4. Fix `'AscendSharedFusedMoE' object has no attribute '_routed_input_transform'`due to https://github.com/vllm-project/vllm/pull/32790 5. Fix `NPUModelRunner._dummy_run() got an unexpected keyword argument 'num_active_loras'` due to https://github.com/vllm-project/vllm/pull/32005 6. Fix the problem caused by` 'tuple' object has no attribute 'job_id'` due to https://github.com/vllm-project/vllm/pull/27492 7. Fix the problem that all_moe_layers is not equal to vllm.moe_forward, vllm.moe_forward_shared due to https://github.com/vllm-project/vllm/pull/33184 8. Add patch to fix the problem "got multiple values for keyword argument 'add_special_tokens'" due to https://github.com/vllm-project/vllm/pull/32863 ### Does this PR introduce _any_ user-facing change? ### How was this patch tested? - vLLM version: v0.15.0 - vLLM main: https://github.com/vllm-project/vllm/commit/v0.15.0 --------- Signed-off-by: wangxiyuan <wangxiyuan1007@gmail.com> Signed-off-by: Meihan-chen <jcccx.cmh@gmail.com> Signed-off-by: hfadzxy <starmoon_zhang@163.com> Co-authored-by: wangxiyuan <wangxiyuan1007@gmail.com> Co-authored-by: hfadzxy <starmoon_zhang@163.com>
571 lines
29 KiB
Python
571 lines
29 KiB
Python
from typing import Optional, Union
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import torch
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import torch.nn as nn
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from vllm.config import CUDAGraphMode
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from vllm.distributed import get_pcp_group
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from vllm.forward_context import get_forward_context
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from vllm.model_executor.models.llama_eagle3 import Eagle3LlamaForCausalLM
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from vllm.v1.attention.backends.utils import CommonAttentionMetadata
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from vllm.v1.core.sched.output import SchedulerOutput
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from vllm.v1.sample.metadata import SamplingMetadata
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from vllm.v1.spec_decode.eagle import PADDING_SLOT_ID
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from vllm.v1.utils import record_function_or_nullcontext
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from vllm_ascend.ascend_forward_context import set_ascend_forward_context
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from vllm_ascend.attention.attention_v1 import AscendAttentionState
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from vllm_ascend.attention.utils import AscendCommonAttentionMetadata
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from vllm_ascend.compilation.acl_graph import ACLGraphWrapper
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from vllm_ascend.ops.rotary_embedding import get_cos_and_sin_mla
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from vllm_ascend.spec_decode.eagle_proposer import EagleProposer
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from vllm_ascend.utils import lmhead_tp_enable, vllm_version_is
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class MtpProposer(EagleProposer):
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# TODO: Find out why ModelRunner does not this explicit typing?
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model: Union[nn.Module, ACLGraphWrapper]
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@torch.inference_mode()
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def dummy_run(self,
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num_tokens: int,
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with_prefill: bool = False,
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in_graph_capturing: bool = False,
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num_reqs: int = 0,
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num_tokens_across_dp=None,
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aclgraph_runtime_mode: CUDAGraphMode = CUDAGraphMode.NONE,
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batch_descriptor=None,
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dummy_compute_logits=lambda hidden_states: None,
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is_profile=False) -> None:
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if (
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self.pcp_size * self.dcp_size == 1
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and not self.speculative_config.disable_padded_drafter_batch
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):
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super().dummy_run(
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num_tokens, with_prefill, in_graph_capturing, num_reqs,
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num_tokens_across_dp, aclgraph_runtime_mode, batch_descriptor,
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dummy_compute_logits, is_profile
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)
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return
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(
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num_tokens,
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num_tokens_across_dp,
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with_prefill,
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) = self.runner._sync_metadata_across_dp(num_tokens, with_prefill)
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if not self.use_cuda_graph:
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# there is synchronization between mtp steps when enabling aclgraph,
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# disable aclgraph when use async scheduling to avoid the
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# synchronization overhead.
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# NOTE: we need to set aclgraph_runtime_mode to None in both dummy_run
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# and _propose.
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aclgraph_runtime_mode = CUDAGraphMode.NONE
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if aclgraph_runtime_mode == CUDAGraphMode.FULL:
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if len(self.runner.attn_groups) > 0:
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num_computed_tokens_cpu = (
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self.runner.input_batch.
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num_computed_tokens_cpu_tensor[:num_reqs])
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common_attn_metadata = AscendCommonAttentionMetadata(
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query_start_loc=self.runner.query_start_loc.gpu[:num_reqs +
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1],
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query_start_loc_cpu=self.runner.query_start_loc.
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cpu[:num_reqs + 1],
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seq_lens_cpu=self.runner.seq_lens.cpu,
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seq_lens=self.runner.seq_lens.gpu[:num_reqs],
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num_reqs=num_reqs,
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num_actual_tokens=num_tokens,
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num_input_tokens=num_tokens,
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max_query_len=self.num_speculative_tokens + 1,
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num_computed_tokens_cpu=num_computed_tokens_cpu,
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actual_seq_lengths_q=self.runner.actual_seq_lengths_q,
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block_table_tensor=self.runner.input_batch.block_table[0].
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get_device_tensor(),
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slot_mapping=self.runner.input_batch.block_table[0].
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slot_mapping.gpu,
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positions=self.runner.positions.gpu,
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attn_state=self.runner.attn_state,
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decode_token_per_req=self.runner.decode_token_per_req,
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max_seq_len=0)
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if self.pcp_size * self.dcp_size > 1:
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# update long_seq related params and flatten block_table
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common_attn_metadata.prefill_context_parallel_metadata = \
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self.runner.pcp_manager.long_seq_metadata
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common_attn_metadata.block_table_tensor = \
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self.runner.input_batch.block_table[0].get_device_tensor()[
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:num_reqs * self.decode_threshold]
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builder = self.runner.attn_groups[0][0].get_metadata_builder()
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# `AscendAttentionState.SpecDecoding` is only designed for mla, `AscendAttentionState.ChunkedPrefill` is used in self-attention.
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attn_state = AscendAttentionState.SpecDecoding if self.vllm_config.model_config.use_mla else AscendAttentionState.ChunkedPrefill
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attn_metadata_mtp = builder.build_for_graph_capture(
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common_attn_metadata, attn_state)
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attn_metadata = {}
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for layer_name in self.attn_layer_names:
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attn_metadata[layer_name] = attn_metadata_mtp
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else:
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attn_metadata = None
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else:
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attn_metadata = None
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input_ids = self.input_ids[:num_tokens]
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positions = self._get_positions(num_tokens)
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previous_hidden_states = self.hidden_states[:num_tokens]
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for i in range(self.num_speculative_tokens):
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if i > 0 and not in_graph_capturing and aclgraph_runtime_mode == CUDAGraphMode.FULL:
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aclgraph_runtime_mode = CUDAGraphMode.NONE
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with set_ascend_forward_context(
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attn_metadata,
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self.vllm_config,
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num_tokens=num_tokens,
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num_tokens_across_dp=num_tokens_across_dp,
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num_actual_tokens=0,
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aclgraph_runtime_mode=aclgraph_runtime_mode,
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batch_descriptor=batch_descriptor,
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is_draft_model=True,
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in_profile_run=is_profile):
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if not vllm_version_is("v0.15.0"):
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# Reset MOE layer index for each MTP step iteration
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forward_context = get_forward_context()
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if forward_context is not None:
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forward_context.moe_layer_index = 0
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previous_hidden_states, positions = self.maybe_pad_and_reduce(
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previous_hidden_states, positions)
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self.model(input_ids=input_ids,
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positions=positions,
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hidden_states=previous_hidden_states)
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forward_context = get_forward_context()
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if forward_context.cudagraph_runtime_mode == CUDAGraphMode.FULL and \
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not forward_context.capturing and not self.use_sparse:
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self._update_full_graph_params(forward_context, num_tokens)
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previous_hidden_states, positions, _ = self.maybe_all_gather_and_unpad(
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previous_hidden_states, positions)
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dummy_compute_logits(previous_hidden_states)
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if with_prefill:
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break
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def _propose(
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self,
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# [num_tokens]
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target_token_ids: torch.Tensor,
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# [num_tokens] or [3, num_tokens] when M-RoPE is enabled
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target_positions: torch.Tensor,
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# [num_tokens, hidden_size]
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target_hidden_states: torch.Tensor,
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# [batch_size]
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next_token_ids: torch.Tensor,
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last_token_indices: Optional[torch.Tensor],
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common_attn_metadata: CommonAttentionMetadata,
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sampling_metadata: SamplingMetadata,
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mm_embed_inputs: Optional[tuple[list[torch.Tensor],
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torch.Tensor]] = None,
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req_scheduled_tokens=None,
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long_seq_metadata=None,
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num_prefill_reqs=0,
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num_decode_reqs=0,
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scheduler_output: SchedulerOutput = None,
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num_scheduled_tokens: int = 0,
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) -> torch.Tensor:
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if (
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self.pcp_size * self.dcp_size == 1
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and not self.speculative_config.disable_padded_drafter_batch
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):
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draft_token_ids = super()._propose(
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target_token_ids, target_positions, target_hidden_states,
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next_token_ids, last_token_indices, common_attn_metadata,
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sampling_metadata, mm_embed_inputs, req_scheduled_tokens,
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long_seq_metadata, num_prefill_reqs, num_decode_reqs,
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scheduler_output, num_scheduled_tokens
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)
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return draft_token_ids
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num_tokens = target_token_ids.shape[0]
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batch_size = next_token_ids.shape[0]
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if last_token_indices is None:
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last_token_indices = common_attn_metadata.query_start_loc[1:] - 1
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if self.method == "eagle3":
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assert isinstance(self.model, Eagle3LlamaForCausalLM)
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target_hidden_states = self.model.combine_hidden_states(
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target_hidden_states)
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assert target_hidden_states.shape[-1] == self.hidden_size
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# Shift the input ids by one token.
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# E.g., [a1, b1, b2, c1, c2, c3] -> [b1, b2, c1, c2, c3, c3]
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self.input_ids[:num_tokens - 1] = target_token_ids[1:]
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# Replace the last token with the next token.
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# E.g., [b1, b2, c1, c2, c3, c3] -> [a2, b2, b3, c2, c3, c4]
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self.input_ids[last_token_indices] = next_token_ids
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# update pcp related params
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if self.pcp_size * self.dcp_size > 1:
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assert long_seq_metadata is not None
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common_attn_metadata.prefill_context_parallel_metadata = long_seq_metadata
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ori_last_token_indices = last_token_indices.clone()
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query_lens_d = self.runner.query_lens[:num_decode_reqs]
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if self.pcp_size > 1:
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# 1. preprocess decode/prefill input_ids & target_hidden_states
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# decode input_ids: keep unchanged
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# decode target_hidden_states: remove padding
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# prefill input_ids: add padding and pcp split
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# prefill target_hidden_states: pcp split
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num_tokens_d = query_lens_d.sum().item()
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num_tokens_d_padded = num_tokens_d * self.pcp_size
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input_ids_d = self.input_ids[:num_tokens_d]
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input_ids_p = self.input_ids[num_tokens_d:num_tokens]
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target_hidden_states_d_padded = \
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target_hidden_states[:num_tokens_d_padded]
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if num_tokens_d:
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# remove padding (from pcp all-gather) in decode part
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mask_start_loc = torch.cat([
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torch.tensor([0], dtype=torch.int32),
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torch.cumsum(query_lens_d * self.pcp_size, dim=0)[:-1]
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])
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mask_len = query_lens_d
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mask = []
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for req_id in range(num_decode_reqs):
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mask += list(
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range(mask_start_loc[req_id],
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mask_start_loc[req_id] + mask_len[req_id]))
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target_hidden_states_d = target_hidden_states_d_padded[mask]
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else:
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target_hidden_states_d = target_hidden_states_d_padded
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target_hidden_states_p = target_hidden_states[num_tokens_d_padded:]
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req_scheduled_tokens_p = {}
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for i, req_id in enumerate(self.runner.input_batch.req_ids):
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if i >= num_decode_reqs:
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req_scheduled_tokens_p[req_id] = \
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req_scheduled_tokens[req_id]
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(num_tokens_p, input_ids_p, target_hidden_states_p,
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max_query_len_p, seq_lens_p, cu_num_tokens_p) = \
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self._split_pcp_input(
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req_scheduled_tokens_p, input_ids_p, target_hidden_states_p)
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num_tokens = num_tokens_d + num_tokens_p
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target_positions = target_positions[:num_tokens]
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self.input_ids[:num_tokens].copy_(
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torch.cat([input_ids_d, input_ids_p], dim=0))
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target_hidden_states = torch.cat(
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[target_hidden_states_d, target_hidden_states_p], dim=0)
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# 2. update sample_indices according to main model
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if num_decode_reqs:
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last_token_indices[:num_decode_reqs] = \
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self.runner.logits_indices[last_token_indices[:num_decode_reqs]]
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if num_prefill_reqs:
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last_token_indices[-num_prefill_reqs:] = \
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self.runner.logits_indices[-num_prefill_reqs:]
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# 3. update attn_metadata params that may be influenced by pcp
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common_attn_metadata.num_actual_tokens = num_tokens
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common_attn_metadata.max_query_len = max(
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self.decode_threshold, max_query_len_p)
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common_attn_metadata.seq_lens[-num_prefill_reqs:] = seq_lens_p
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common_attn_metadata.seq_lens_cpu[
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-num_prefill_reqs:] = seq_lens_p
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query_start_loc_p = cu_num_tokens_p[1:] + \
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common_attn_metadata.query_start_loc[num_decode_reqs].item()
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common_attn_metadata.query_start_loc[-num_prefill_reqs:] = \
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query_start_loc_p
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common_attn_metadata.query_start_loc_cpu[-num_prefill_reqs:] = \
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query_start_loc_p
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assert self.runner is not None
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# Note(qcs): We may need to refactor these check logics.
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if self.use_cuda_graph and num_scheduled_tokens <= self.runner.cudagraph_batch_sizes[
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-1]:
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num_input_tokens = self.runner.cudagraph_dispatcher._bs_to_padded_graph_size[
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num_scheduled_tokens]
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else:
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# Eager mode, no padding needed
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num_input_tokens = num_tokens
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# copy inputs to buffer for cudagraph
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self._set_positions(num_tokens, target_positions)
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self.hidden_states[:num_tokens] = target_hidden_states
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# eager/acl piecewise mode need to update num_tokens_across_dp
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(num_input_tokens, num_tokens_across_dp,
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with_prefill) = self.runner._sync_metadata_across_dp(
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num_input_tokens, self.runner.with_prefill)
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# Enable shared_expert_dp and MTP FULL graph may cause accuracy issues.
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if scheduler_output and not self.enable_shared_expert_dp:
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max_query_len = common_attn_metadata.max_query_len
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uniform_decode = (max_query_len in list(
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range(1, self.num_speculative_tokens +
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2))) and (scheduler_output.total_num_scheduled_tokens
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== self.runner.input_batch.num_reqs *
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(self.num_speculative_tokens + 1))
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else:
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uniform_decode = False
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has_lora = len(self.runner.input_batch.lora_id_to_lora_request) > 0
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aclgraph_runtime_mode, batch_descriptor = \
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self.runner.cudagraph_dispatcher.dispatch(num_tokens=num_input_tokens, uniform_decode=uniform_decode, has_lora=has_lora)
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if not self.use_cuda_graph:
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# there is synchronization between mtp steps when enabling aclgraph,
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# disable aclgraph when use async scheduling to avoid the
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# synchronization overhead.
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# NOTE: we need to set aclgraph_runtime_mode to None in both dummy_run
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# and _propose.
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aclgraph_runtime_mode = CUDAGraphMode.NONE
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if self.vllm_config.compilation_config.cudagraph_mode.has_full_cudagraphs(
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) and aclgraph_runtime_mode == CUDAGraphMode.FULL:
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graph_pad_size = num_input_tokens
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else:
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graph_pad_size = -1
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# If use fullgraph and disable_padded_drafter_batch=True, We need to
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# update the graph_pad_size in common_attn_metadata, to tell the
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# builder padding some elements.
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common_attn_metadata.graph_pad_size = graph_pad_size
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common_attn_metadata.num_input_tokens = num_input_tokens
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builder = self.runner.attn_groups[0][0].get_metadata_builder()
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attn_metadata_mtp = builder.build(0, common_attn_metadata,
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self.runner.get_model())
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attn_metadata = {}
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for layer_name in self.attn_layer_names:
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attn_metadata[layer_name] = attn_metadata_mtp
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for step in range(self.num_speculative_tokens):
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with set_ascend_forward_context(
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attn_metadata,
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self.vllm_config,
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num_tokens=num_input_tokens,
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num_tokens_across_dp=num_tokens_across_dp,
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aclgraph_runtime_mode=aclgraph_runtime_mode,
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batch_descriptor=batch_descriptor,
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num_actual_tokens=num_tokens,
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is_draft_model=True):
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if not vllm_version_is("v0.15.0"):
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# Reset MOE layer index for each MTP step to match all_moe_layers registration
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forward_context = get_forward_context()
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if forward_context is not None:
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forward_context.moe_layer_index = 0
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with record_function_or_nullcontext('mtp_forward'):
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model_kwargs = {}
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model_kwargs["attn_metadata"] = attn_metadata
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input_ids = self.input_ids[:num_input_tokens]
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positions = self._get_positions(num_input_tokens)
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hidden_states = self.hidden_states[:num_input_tokens]
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hidden_states, positions = self.maybe_pad_and_reduce(
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hidden_states, positions)
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hidden_states = self.model(input_ids=input_ids,
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positions=positions,
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hidden_states=hidden_states)
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forward_context = get_forward_context()
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if forward_context.cudagraph_runtime_mode == CUDAGraphMode.FULL and not self.use_sparse:
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self._update_full_graph_params(forward_context,
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num_input_tokens)
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hidden_states, positions, _ = self.maybe_all_gather_and_unpad(
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hidden_states, positions)
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num_indices = last_token_indices.shape[0]
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if lmhead_tp_enable():
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max_num_reqs_across_dp = self.vllm_config.scheduler_config.max_num_seqs * self.runner.uniform_decode_query_len
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last_token_indices = nn.functional.pad(
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last_token_indices,
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(0, max_num_reqs_across_dp - num_indices))
|
|
|
|
if self.pcp_size > 1 and step == 0:
|
|
# remove graph padding before all_gather
|
|
hidden_states = hidden_states[:num_tokens]
|
|
hidden_states = get_pcp_group().all_gather(hidden_states, 0)
|
|
hidden_states = torch.index_select(
|
|
hidden_states, 0, self.runner.pcp_manager.
|
|
pcp_allgather_restore_idx.gpu[:hidden_states.shape[0]])
|
|
|
|
sample_hidden_states = hidden_states[last_token_indices]
|
|
logits = self.model.compute_logits(sample_hidden_states)
|
|
if lmhead_tp_enable() and num_indices < logits.shape[0]:
|
|
logits = logits[:num_indices]
|
|
last_token_indices = last_token_indices[:num_indices]
|
|
draft_token_ids = logits.argmax(dim=-1)
|
|
|
|
if self.num_speculative_tokens == 1:
|
|
# [batch_size, 1]
|
|
return draft_token_ids.view(-1, 1)
|
|
|
|
if step == 0:
|
|
draft_token_ids_list = [draft_token_ids]
|
|
else:
|
|
draft_token_ids_list.append(draft_token_ids)
|
|
|
|
# prepare next mtp inputs
|
|
# mtp>1: prefill skip or decode skip last loop
|
|
if with_prefill:
|
|
for _ in range(self.num_speculative_tokens - 1):
|
|
draft_token_ids_list.append(draft_token_ids)
|
|
if step == self.num_speculative_tokens - 1 or with_prefill:
|
|
break
|
|
|
|
attn_metadata_i = attn_metadata[self.attn_layer_names[0]]
|
|
|
|
if step == 0:
|
|
positions = target_positions[last_token_indices]
|
|
hidden_states = hidden_states[last_token_indices]
|
|
slot_mapping = attn_metadata_i.slot_mapping[last_token_indices]
|
|
attn_metadata_i.slot_mapping.fill_(-1)
|
|
attn_metadata_i.query_start_loc = self.arange[:batch_size + 1]
|
|
last_token_indices = self.arange[:batch_size]
|
|
if getattr(attn_metadata_i, "num_decode_tokens", 0):
|
|
attn_metadata_i.num_decode_tokens = batch_size
|
|
if self.pcp_size * self.dcp_size > 1:
|
|
positions = target_positions[ori_last_token_indices]
|
|
# For pcp/dcp, tokens are split across different cp ranks,
|
|
# so we can not simply update slot_mapping by += 1.
|
|
# Instead, we pre-allocate mtp slot_mapping in model_runner
|
|
# (_generate_pcp_mtp_input), and use updated slot_indices
|
|
# to get corresponding slot_mapping in each step.
|
|
num_reject_tokens = torch.tensor(
|
|
self.runner.pcp_manager.cu_num_tokens_pcp_full,
|
|
dtype=torch.int32).to(
|
|
self.device) - ori_last_token_indices - 1
|
|
num_accept_tokens = \
|
|
query_lens_d.to(self.device) - num_reject_tokens
|
|
ori_seq_len = attn_metadata_i.seq_lens
|
|
mtp_slot_mapping = self.runner.pcp_manager.mtp_slot_pad
|
|
|
|
# slot_mapping index base offset:
|
|
# scheduled tokens + pre-allocated mtp tokens + accepted tokens
|
|
slot_idx_base = (
|
|
torch.cat([
|
|
torch.tensor(
|
|
[0], dtype=torch.int32, device=self.device),
|
|
(torch.cumsum(query_lens_d, dim=0)[:-1] *
|
|
self.pcp_size).to(self.device)
|
|
]) +
|
|
torch.arange(num_decode_reqs, device=self.device) *
|
|
(self.num_speculative_tokens - 1) * self.pcp_size +
|
|
(num_accept_tokens - 1) * self.pcp_size)
|
|
slot_indices_list = []
|
|
for req_id in range(num_decode_reqs):
|
|
slot_indices_list.append(
|
|
torch.arange(slot_idx_base[req_id],
|
|
slot_idx_base[req_id] + self.pcp_size,
|
|
device=self.device))
|
|
slot_indices = torch.cat(slot_indices_list, dim=0)
|
|
|
|
# fold block_table (restore it to original size before flattened)
|
|
block_indices = torch.cat([
|
|
torch.tensor([0], dtype=torch.int32),
|
|
torch.cumsum(query_lens_d, dim=0)[:-1]
|
|
])
|
|
attn_metadata_i.decode.block_table[:batch_size] = \
|
|
attn_metadata_i.decode.block_table[block_indices]
|
|
attn_metadata_i.decode.block_table = \
|
|
attn_metadata_i.decode.block_table[:batch_size]
|
|
|
|
input_ids = draft_token_ids_list[-1].int()
|
|
positions += 1
|
|
|
|
decode_metadata = getattr(attn_metadata_i, "decode", None)
|
|
prefill_metadata = getattr(attn_metadata_i, "prefill", None)
|
|
# When disable_padded_drafter_batch=False, it should not to be updating these params, maybe.
|
|
if decode_metadata is not None and (self.speculative_config.disable_padded_drafter_batch or \
|
|
aclgraph_runtime_mode != CUDAGraphMode.FULL):
|
|
decode_metadata.actual_seq_lengths_q = self.arange_cpu[
|
|
1:batch_size + 1].tolist()
|
|
if aclgraph_runtime_mode == CUDAGraphMode.FULL:
|
|
decode_metadata.actual_seq_lengths_q = \
|
|
builder.pad_actual_seq_len_q_mtp_disable_pad(
|
|
graph_pad_size - batch_size,
|
|
batch_size,
|
|
decode_metadata.actual_seq_lengths_q)
|
|
decode_metadata.cos, decode_metadata.sin = get_cos_and_sin_mla(
|
|
positions[:batch_size])
|
|
# NOTE(woosuk): We should handle the case where the draft model
|
|
# generates tokens beyond the max model length. Since it is complex
|
|
# to remove such requests from the batch, we keep them in the batch
|
|
# but adjust the position ids and slot mappings to avoid the
|
|
# out-of-range access during the model execution. The draft tokens
|
|
# generated with this adjustment should be ignored.
|
|
exceeds_max_model_len = positions[:
|
|
batch_size] >= self.runner.model_config.max_model_len
|
|
# Mask out the position ids that exceed the max model length.
|
|
# Otherwise, we may get out-of-range error in RoPE.
|
|
clamped_positions = torch.where(exceeds_max_model_len, 0,
|
|
positions[:batch_size])
|
|
# Increment the sequence lengths.
|
|
# This is an out-of-place operation to avoid modifying the original tensor
|
|
# when enable async_scheduling.
|
|
attn_metadata_i.seq_lens = attn_metadata_i.seq_lens + 1
|
|
# For the requests that exceed the max model length, we set the
|
|
# sequence length to 1 to minimize their overheads in attention.
|
|
exceeds_mask = attn_metadata_i.seq_lens[:batch_size] > \
|
|
self.runner.model_config.max_model_len
|
|
attn_metadata_i.seq_lens[:batch_size].masked_fill_(exceeds_mask, 1)
|
|
# Mask out the slot mappings that exceed the max model length.
|
|
# Otherwise, the KV cache will be inadvertently updated with the
|
|
# padding tokens.
|
|
slot_mapping += 1
|
|
if self.pcp_size > 1:
|
|
exceeds_max_model_len = exceeds_max_model_len.repeat_interleave(
|
|
slot_mapping.size(0) // exceeds_max_model_len.size(0))
|
|
slot_mapping.masked_fill_(exceeds_max_model_len, PADDING_SLOT_ID)
|
|
|
|
# copy inputs to buffer for cudagraph
|
|
self.input_ids[:batch_size] = input_ids
|
|
self._set_positions(batch_size, clamped_positions)
|
|
self.hidden_states[:hidden_states.shape[0]] = hidden_states
|
|
if self.pcp_size * self.dcp_size > 1:
|
|
# update local seq_len
|
|
num_computed_tokens_of_pcp_dcp = self.runner.pcp_manager._get_cp_local_seq_lens(
|
|
ori_seq_len + step + 1,
|
|
self.pcp_size,
|
|
self.dcp_size,
|
|
self.runner.parallel_config.cp_kv_cache_interleave_size,
|
|
)
|
|
cp_seq_len = \
|
|
num_computed_tokens_of_pcp_dcp[:, self.pcp_rank, self.dcp_rank]
|
|
attn_metadata_i.decode.cp_seq_len = cp_seq_len
|
|
# update slot_mapping
|
|
slot_indices += self.pcp_size
|
|
slot_mapping = mtp_slot_mapping[slot_indices]
|
|
attn_metadata_i.slot_mapping[:batch_size *
|
|
self.pcp_size] = slot_mapping
|
|
else:
|
|
attn_metadata_i.slot_mapping[:batch_size] = slot_mapping
|
|
if self.speculative_config.disable_padded_drafter_batch:
|
|
if self.uses_mrope:
|
|
self.mrope_positions[:, batch_size:num_input_tokens] = 0
|
|
else:
|
|
self.positions[batch_size:num_input_tokens] = 0
|
|
self.input_ids[batch_size:num_input_tokens] = 0
|
|
self.hidden_states[batch_size:num_input_tokens].fill_(0)
|
|
|
|
if prefill_metadata is not None:
|
|
prefill_metadata.seq_lens = attn_metadata_i.seq_lens
|
|
prefill_metadata.seq_lens_list = prefill_metadata.seq_lens.tolist(
|
|
)
|
|
prefill_metadata.context_lens = attn_metadata_i.seq_lens
|
|
prefill_metadata.input_positions = self._get_positions(
|
|
num_input_tokens)
|
|
prefill_metadata.max_seq_lens += 1
|
|
prefill_metadata.max_seq_lens = min(
|
|
prefill_metadata.max_seq_lens,
|
|
self.runner.model_config.max_model_len)
|
|
if decode_metadata is not None:
|
|
decode_metadata.seq_lens = attn_metadata_i.seq_lens
|
|
decode_metadata.seq_lens_list = decode_metadata.seq_lens.tolist(
|
|
)
|
|
decode_seq_lens_list = decode_metadata.seq_lens_list
|
|
if aclgraph_runtime_mode == CUDAGraphMode.FULL and \
|
|
self.speculative_config.disable_padded_drafter_batch:
|
|
decode_metadata.seq_lens_list = decode_seq_lens_list + [
|
|
0
|
|
] * (graph_pad_size - len(decode_seq_lens_list))
|
|
decode_metadata.input_positions = self._get_positions(
|
|
num_input_tokens)
|
|
decode_metadata.max_seq_lens += 1
|
|
decode_metadata.max_seq_lens = min(
|
|
decode_metadata.max_seq_lens,
|
|
self.runner.model_config.max_model_len)
|
|
|
|
# mtp>1: [batch_size, k]
|
|
draft_token_ids = torch.stack(draft_token_ids_list, dim=1)
|
|
return draft_token_ids
|