168 lines
5.1 KiB
Python
168 lines
5.1 KiB
Python
# SPDX-License-Identifier: Apache-2.0
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# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
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from collections.abc import Callable
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import torch
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from vllm.triton_utils import tl, triton
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from vllm.v1.outputs import LogprobsTensors
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@triton.jit
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def _topk_log_softmax_kernel(
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output_ptr,
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logits_ptr,
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logits_stride,
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topk_ids_ptr,
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topk,
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vocab_size,
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BLOCK_SIZE: tl.constexpr,
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PADDED_TOPK: tl.constexpr,
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):
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req_idx = tl.program_id(0)
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row_ptr = logits_ptr + req_idx * logits_stride
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max_val = float("-inf")
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for i in range(0, vocab_size, BLOCK_SIZE):
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block = i + tl.arange(0, BLOCK_SIZE)
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logits = tl.load(row_ptr + block, mask=block < vocab_size, other=float("-inf"))
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max_val = tl.max(tl.maximum(logits, max_val))
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max_val = max_val.to(tl.float32) # type: ignore
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se = 0.0
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for i in range(0, vocab_size, BLOCK_SIZE):
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block = i + tl.arange(0, BLOCK_SIZE)
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logits = tl.load(row_ptr + block, mask=block < vocab_size, other=0.0)
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# NOTE(woosuk): Make sure that logits and all following operations use FP32.
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logits = logits.to(tl.float32)
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e = tl.exp(logits - max_val)
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e = tl.where(block < vocab_size, e, 0.0)
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se += tl.sum(e)
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lse = tl.log(se)
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k_offset = tl.arange(0, PADDED_TOPK)
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k_mask = k_offset < topk
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topk_ids = tl.load(topk_ids_ptr + req_idx * topk + k_offset, mask=k_mask, other=0)
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logits = tl.load(row_ptr + topk_ids, mask=k_mask)
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logits = logits.to(tl.float32)
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o = logits - max_val - lse
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tl.store(output_ptr + req_idx * topk + k_offset, o, mask=k_mask)
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@triton.jit
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def _ranks_kernel(
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output_ptr,
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logits_ptr,
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logits_stride,
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token_ids_ptr,
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vocab_size,
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BLOCK_SIZE: tl.constexpr,
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):
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req_idx = tl.program_id(0)
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row_ptr = logits_ptr + req_idx * logits_stride
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token_id = tl.load(token_ids_ptr + req_idx)
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x = tl.load(row_ptr + token_id)
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n = 0
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for i in range(0, vocab_size, BLOCK_SIZE):
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block = i + tl.arange(0, BLOCK_SIZE)
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logits = tl.load(row_ptr + block, mask=block < vocab_size, other=float("-inf"))
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n += tl.sum((logits > x).to(tl.int32))
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tl.store(output_ptr + req_idx, n)
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def compute_token_logprobs(
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logits: torch.Tensor,
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token_ids: torch.Tensor,
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) -> torch.Tensor:
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batch_size = logits.shape[0]
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vocab_size = logits.shape[1]
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token_ids = token_ids.to(torch.int64)
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num_logprobs = token_ids.shape[1]
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logprobs = torch.empty(
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batch_size,
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num_logprobs,
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dtype=torch.float32,
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device=logits.device,
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)
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_topk_log_softmax_kernel[(batch_size,)](
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logprobs,
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logits,
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logits.stride(0),
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token_ids,
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num_logprobs,
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vocab_size,
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BLOCK_SIZE=1024, # type: ignore
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PADDED_TOPK=triton.next_power_of_2(num_logprobs),
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)
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return logprobs
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def compute_topk_logprobs(
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logits: torch.Tensor,
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num_logprobs: int,
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sampled_token_ids: torch.Tensor,
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) -> LogprobsTensors:
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assert num_logprobs >= 0
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batch_size, vocab_size = logits.shape
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if num_logprobs == 0:
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logprob_token_ids = sampled_token_ids.unsqueeze(-1)
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else:
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topk_indices = torch.topk(logits, num_logprobs, dim=-1).indices
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logprob_token_ids = torch.cat(
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(sampled_token_ids.unsqueeze(-1), topk_indices), dim=1
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)
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# NOTE(woosuk): Here, to save GPU memory, we do not materialize the full
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# logprobs tensor. Instead, we only compute and return the logprobs of
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# the topk + 1 tokens.
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logprobs = compute_token_logprobs(logits, logprob_token_ids)
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token_ranks = torch.empty(
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batch_size,
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dtype=torch.int64,
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device=logits.device,
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)
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_ranks_kernel[(batch_size,)](
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token_ranks,
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logits,
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logits.stride(0),
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sampled_token_ids,
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vocab_size,
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BLOCK_SIZE=8192, # type: ignore
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)
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return LogprobsTensors(
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logprob_token_ids=logprob_token_ids,
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logprobs=logprobs,
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selected_token_ranks=token_ranks,
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)
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def compute_prompt_logprobs(
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prompt_token_ids: torch.Tensor,
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prompt_hidden_states: torch.Tensor,
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logits_fn: Callable[[torch.Tensor], torch.Tensor],
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) -> tuple[torch.Tensor, torch.Tensor]:
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# Since materializing the full prompt logits can take too much memory,
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# we compute it in chunks.
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CHUNK_SIZE = 1024
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logprobs = []
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ranks = []
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prompt_token_ids = prompt_token_ids.to(torch.int64)
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for start_idx in range(0, prompt_token_ids.shape[0], CHUNK_SIZE):
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end_idx = start_idx + CHUNK_SIZE
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# NOTE(woosuk): logits_fn can be slow because it involves all-gather.
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prompt_logits = logits_fn(prompt_hidden_states[start_idx:end_idx])
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prompt_logprobs = compute_topk_logprobs(
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prompt_logits,
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0, # num_logprobs
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prompt_token_ids[start_idx:end_idx],
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)
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logprobs.append(prompt_logprobs.logprobs)
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ranks.append(prompt_logprobs.selected_token_ranks)
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logprobs = torch.cat(logprobs, dim=0) if len(logprobs) > 1 else logprobs[0]
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ranks = torch.cat(ranks, dim=0) if len(ranks) > 1 else ranks[0]
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return logprobs, ranks
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