""" # Copyright (c) 2025 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License" # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """ import random import time from typing import Dict, List, Optional import numpy as np import paddle from paddle import nn from fastdeploy import envs from fastdeploy.config import FDConfig from fastdeploy.engine.request import Request, RequestType from fastdeploy.model_executor.forward_meta import ForwardMeta, XPUForwardMeta from fastdeploy.model_executor.graph_optimization.utils import ( profile_run_guard, sot_warmup_guard, ) from fastdeploy.model_executor.layers.attention import get_attention_backend from fastdeploy.model_executor.layers.attention.base_attention_backend import ( AttentionBackend, ) from fastdeploy.model_executor.layers.rotary_embedding import get_rope from fastdeploy.model_executor.layers.sample.meta_data import SamplingMetadata from fastdeploy.model_executor.layers.sample.sampler import Sampler from fastdeploy.model_executor.model_loader import get_model_loader from fastdeploy.model_executor.ops.xpu import ( adjust_batch, get_infer_param, get_padding_offset, recover_decode_task, update_inputs_v1, ) from fastdeploy.utils import get_logger from fastdeploy.worker.model_runner_base import ModelRunnerBase from fastdeploy.worker.output import ModelOutputData, ModelRunnerOutput logger = get_logger("xpu_model_runner", "xpu_model_runner.log") def xpu_pre_process( input_ids: paddle.Tensor, seq_lens_this_time: int, share_inputs: Dict, use_speculate_method: bool, draft_tokens: Optional[paddle.Tensor] = None, seq_lens_encoder: Optional[paddle.Tensor] = None, seq_lens_decoder: Optional[paddle.Tensor] = None, ) -> XPUForwardMeta: """ """ max_len = input_ids.shape[1] cum_offsets_now = paddle.cumsum(max_len - seq_lens_this_time) token_num = paddle.sum(seq_lens_this_time) ( ids_remove_padding, cum_offsets, batch_id_per_token, cu_seqlens_q, cu_seqlens_k, ) = get_padding_offset(input_ids, cum_offsets_now, token_num, seq_lens_this_time) share_inputs["ids_remove_padding"] = None # set this after adjust batch share_inputs["cum_offsets"] = cum_offsets share_inputs["batch_id_per_token"] = batch_id_per_token share_inputs["cu_seqlens_q"] = cu_seqlens_q share_inputs["cu_seqlens_k"] = cu_seqlens_k xpu_forward_meta = XPUForwardMeta( input_ids=share_inputs["input_ids"], ids_remove_padding=share_inputs["ids_remove_padding"], rotary_embs=share_inputs["rope_emb"], attn_backend=None, seq_lens_encoder=share_inputs["seq_lens_encoder"], seq_lens_decoder=share_inputs["seq_lens_decoder"], seq_lens_this_time=share_inputs["seq_lens_this_time"], cum_offsets=share_inputs["cum_offsets"], batch_id_per_token=share_inputs["batch_id_per_token"], cu_seqlens_q=share_inputs["cu_seqlens_q"], cu_seqlens_k=share_inputs["cu_seqlens_k"], block_tables=share_inputs["block_tables"], caches=share_inputs["caches"], ) # Get xpu extra param ( xpu_forward_meta.encoder_batch_map, xpu_forward_meta.decoder_batch_map, xpu_forward_meta.encoder_batch_idx, xpu_forward_meta.decoder_batch_idx, xpu_forward_meta.encoder_seq_lod, xpu_forward_meta.decoder_context_len, xpu_forward_meta.decoder_context_len_cache, xpu_forward_meta.encoder_batch_map_cpu, xpu_forward_meta.decoder_batch_map_cpu, xpu_forward_meta.encoder_batch_idx_cpu, xpu_forward_meta.decoder_batch_idx_cpu, xpu_forward_meta.encoder_seq_lod_cpu, xpu_forward_meta.decoder_context_len_cpu, xpu_forward_meta.decoder_context_len_cache_cpu, xpu_forward_meta.enc_batch, xpu_forward_meta.dec_batch, xpu_forward_meta.total_enc_len, ) = get_infer_param(seq_lens_encoder, seq_lens_decoder) # Adjust batch # print(f"=========================adjust_batch 更新前=========================") # print(f"ids_remove_padding : {ids_remove_padding}") # print(f"cum_offsets : {cum_offsets}") # print(f"xpu_forward_meta.encoder_seq_lod : {xpu_forward_meta.encoder_seq_lod}") # print(f"xpu_forward_meta.encoder_batch_idx: {xpu_forward_meta.encoder_batch_idx}") # print(f"xpu_forward_meta.decoder_batch_idx : {xpu_forward_meta.decoder_batch_idx}") # print(f"xpu_forward_meta.encoder_seq_lod_cpu : {xpu_forward_meta.encoder_seq_lod_cpu}") # print(f"xpu_forward_meta.encoder_batch_idx_cpu : {xpu_forward_meta.encoder_batch_idx_cpu}") # print(f"xpu_forward_meta.decoder_batch_idx_cpu : {xpu_forward_meta.decoder_batch_idx_cpu}") # print(f"xpu_forward_meta.enc_batch : {xpu_forward_meta.encoder_batch_map}") # print(f"xpu_forward_meta.dec_batch : {xpu_forward_meta.decoder_batch_map}") adjusted_input = adjust_batch( ids_remove_padding.reshape([-1, 1]), cum_offsets, xpu_forward_meta.encoder_seq_lod, xpu_forward_meta.encoder_batch_idx, xpu_forward_meta.decoder_batch_idx, xpu_forward_meta.encoder_seq_lod_cpu, xpu_forward_meta.encoder_batch_idx_cpu, xpu_forward_meta.decoder_batch_idx_cpu, xpu_forward_meta.enc_batch, xpu_forward_meta.dec_batch, None, # output_padding_offset -1, # max_input_length ) # print(f"=========================adjust_batch 更新后=========================") # print(f"ids_remove_padding : {ids_remove_padding}") # print(f"cum_offsets : {cum_offsets}") # print(f"xpu_forward_meta.encoder_seq_lod : {xpu_forward_meta.encoder_seq_lod}") # print(f"xpu_forward_meta.encoder_batch_idx: {xpu_forward_meta.encoder_batch_idx}") # print(f"xpu_forward_meta.decoder_batch_idx : {xpu_forward_meta.decoder_batch_idx}") # print(f"xpu_forward_meta.encoder_seq_lod_cpu : {xpu_forward_meta.encoder_seq_lod_cpu}") # print(f"xpu_forward_meta.encoder_batch_idx_cpu : {xpu_forward_meta.encoder_batch_idx_cpu}") # print(f"xpu_forward_meta.decoder_batch_idx_cpu : {xpu_forward_meta.decoder_batch_idx_cpu}") # print(f"xpu_forward_meta.enc_batch : {xpu_forward_meta.encoder_batch_map}") adjusted_input = adjusted_input.squeeze(1) share_inputs["ids_remove_padding"] = adjusted_input xpu_forward_meta.ids_remove_padding = adjusted_input return xpu_forward_meta def xpu_process_output( forward_output, cum_offsets: paddle.Tensor, xpu_forward_meta: XPUForwardMeta, ) -> paddle.Tensor: """ """ from fastdeploy.model_executor.ops.xpu import gather_next_token hiddden_states = gather_next_token( forward_output, cum_offsets, xpu_forward_meta.encoder_seq_lod, xpu_forward_meta.encoder_batch_map, xpu_forward_meta.decoder_batch_map, xpu_forward_meta.encoder_seq_lod_cpu, xpu_forward_meta.encoder_batch_map_cpu, xpu_forward_meta.decoder_batch_map_cpu, xpu_forward_meta.enc_batch, xpu_forward_meta.dec_batch, None, # output_padding_offset -1, # max_input_length ) return hiddden_states def xpu_post_process( sampled_token_ids: paddle.Tensor, model_output: ModelOutputData, share_inputs: Dict[str, paddle.Tensor], block_size: int = 64, skip_save_output: bool = False, ) -> None: """ """ from fastdeploy.model_executor.ops.xpu import ( save_output, set_stop_value_multi_ends, update_inputs, ) # 1. Set stop value paddle.assign( paddle.where( model_output.stop_flags, model_output.step_idx, model_output.step_idx + 1, ), model_output.step_idx, ) length_cond = paddle.greater_equal(model_output.step_idx, model_output.max_dec_len) paddle.assign( paddle.logical_or(model_output.stop_flags, length_cond), model_output.stop_flags, ) set_stop_value_multi_ends( sampled_token_ids, model_output.stop_flags, model_output.seq_lens_this_time, model_output.eos_token_id, model_output.next_tokens, False, ) # multi ends # 2. Update the input buffer of the model with paddle.framework._no_check_dy2st_diff(): if envs.ENABLE_V1_KVCACHE_SCHEDULER and not skip_save_output: # print(f"============================================update_inputs_v1 更新前=========================================") # print(f"model_output.stop_flags : {model_output.stop_flags}") # print(f"model_output.not_need_stop : {model_output.not_need_stop}") # print(f"model_output.seq_lens_this_time : {model_output.seq_lens_this_time}") # print(f"model_output.seq_lens_encoder : {model_output.seq_lens_encoder}") # print(f"model_output.seq_lens_decoder : {model_output.seq_lens_decoder}") # print(f"share_inputs['step_seq_lens_decoder'] : {share_inputs['step_seq_lens_decoder']}") # print(f"share_inputs['prompt_lens'] : {share_inputs['prompt_lens']}") # print(f"sampled_token_ids : {sampled_token_ids}") # print(f"model_output.input_ids : {model_output.input_ids}") # print(f"model_output.stop_nums : {model_output.stop_nums}") # print(f"model_output.next_tokens : {model_output.next_tokens}") # print(f"model_output.is_block_step : {model_output.is_block_step}") # print(f"share_inputs['block_tables'] : {share_inputs['block_tables']}") # print(f"block_size : {block_size}") update_inputs_v1( model_output.stop_flags, model_output.not_need_stop, model_output.seq_lens_this_time, model_output.seq_lens_encoder, model_output.seq_lens_decoder, share_inputs["step_seq_lens_decoder"], share_inputs["prompt_lens"], sampled_token_ids, model_output.input_ids, share_inputs["block_tables"], model_output.stop_nums, model_output.next_tokens, model_output.is_block_step, block_size, ) # print(f"============================================update_inputs_v1 更新后=========================================") # print(f"model_output.stop_flags : {model_output.stop_flags}") # print(f"model_output.not_need_stop : {model_output.not_need_stop}") # print(f"model_output.seq_lens_this_time : {model_output.seq_lens_this_time}") # print(f"model_output.seq_lens_encoder : {model_output.seq_lens_encoder}") # print(f"model_output.seq_lens_decoder : {model_output.seq_lens_decoder}") # print(f"share_inputs['step_seq_lens_decoder'] : {share_inputs['step_seq_lens_decoder']}") # print(f"share_inputs['prompt_lens'] : {share_inputs['prompt_lens']}") # print(f"sampled_token_ids : {sampled_token_ids}") # print(f"model_output.input_ids : {model_output.input_ids}") # print(f"model_output.stop_nums : {model_output.stop_nums}") # print(f"model_output.next_tokens : {model_output.next_tokens}") # print(f"model_output.is_block_step : {model_output.is_block_step}") # print(f"share_inputs['block_tables'] : {share_inputs['block_tables']}") # print(f"block_size : {block_size}") else: update_inputs( model_output.stop_flags, model_output.not_need_stop, model_output.seq_lens_this_time, model_output.seq_lens_encoder, model_output.seq_lens_decoder, model_output.input_ids, model_output.stop_nums, sampled_token_ids, model_output.is_block_step, ) # 3. Transmit the model's output and stop generation signal via message queue. # In the future, we will abandon this approach. if not skip_save_output: save_output( sampled_token_ids, model_output.not_need_stop, model_output.mp_rank, False, # use_ep ) def step_paddle( share_inputs: Dict[str, paddle.Tensor], block_size: int, enc_dec_block_num: int, ) -> None: """ TODO(gongshaotian): normalization name """ from fastdeploy.model_executor.ops.xpu import step_paddle step_paddle( share_inputs["stop_flags"], share_inputs["seq_lens_this_time"], share_inputs["step_seq_lens_encoder"], share_inputs["seq_lens_encoder"], share_inputs["seq_lens_decoder"], share_inputs["block_tables"], share_inputs["encoder_block_lens"], share_inputs["is_block_step"], share_inputs["step_block_list"], share_inputs["step_lens"], share_inputs["recover_block_list"], share_inputs["recover_lens"], share_inputs["need_block_list"], share_inputs["need_block_len"], share_inputs["used_list_len"], share_inputs["free_list"], share_inputs["free_list_len"], share_inputs["input_ids"], share_inputs["pre_ids"], share_inputs["step_idx"], share_inputs["next_tokens"], share_inputs["first_token_ids"], block_size, enc_dec_block_num, ) class XPUModelRunner(ModelRunnerBase): """ """ def __init__(self, fd_config: FDConfig, device: str, rank: int, local_rank: int): super().__init__(fd_config=fd_config, device=device) self.rank = rank self.local_rank = local_rank # Sampler self.sampler = Sampler() # Lazy initialize kv cache after model loading # self.kv_caches: list[paddle.Tensor] = [] # Cuda Graph self.graph_opt_level = self.graph_opt_config.graph_opt_level self.use_cudagraph = False self.sot_warmup_sizes = self.graph_opt_config.sot_warmup_sizes self.input_ids = paddle.zeros(self.parallel_config.max_num_seqs, dtype="int32") # Initialize share inputs self._init_share_inputs(self.fd_config.parallel_config.max_num_seqs) self.infer_seed_increment = paddle.full( shape=[self.parallel_config.max_num_seqs, 1], fill_value=4, dtype="int64", ).cpu() # Initialize attention Backend # Note(gonshaotian): Currently, all attention layers share one attention backend instance. # In the future, we will expand it as a list. self.attn_backends: list[AttentionBackend] = [] self.initialize_attn_backend() # Forward meta store the global meta information of the forward self.forward_meta: ForwardMeta = None def insert_tasks_v1(self, req_dicts: List[Request]): """ Process scheduler output tasks, used when ENABLE_V1_KVCACHE_SCHEDULER=1 """ # NOTE(luotingdan): Lazy initialize kv cache if "caches" not in self.share_inputs: self.initialize_kv_cache() req_len = len(req_dicts) has_prefill_task = False for i in range(req_len): request = req_dicts[i] idx = request.idx if request.task_type.value == RequestType.PREFILL.value: # prefill task logger.debug(f"Handle prefill request {request} at idx {idx}") prefill_start_index = request.prefill_start_index prefill_end_index = request.prefill_end_index length = prefill_end_index - prefill_start_index input_ids = request.prompt_token_ids + request.output_token_ids self.share_inputs["input_ids"][idx : idx + 1, :length] = np.array( input_ids[prefill_start_index:prefill_end_index] ) encoder_block_num = len(request.block_tables) self.share_inputs["encoder_block_lens"][idx : idx + 1] = encoder_block_num self.share_inputs["block_tables"][idx : idx + 1, :] = -1 self.share_inputs["block_tables"][idx : idx + 1, :encoder_block_num] = np.array( request.block_tables, dtype="int32" ) self.share_inputs["stop_flags"][idx : idx + 1] = False self.share_inputs["seq_lens_decoder"][idx : idx + 1] = prefill_start_index self.share_inputs["seq_lens_this_time"][idx : idx + 1] = length self.share_inputs["seq_lens_encoder"][idx : idx + 1] = length self.share_inputs["step_seq_lens_decoder"][idx : idx + 1] = 0 self.share_inputs["prompt_lens"][idx : idx + 1] = len(input_ids) self.share_inputs["is_block_step"][idx : idx + 1] = False self.share_inputs["step_idx"][idx : idx + 1] = ( len(request.output_token_ids) if prefill_end_index >= len(input_ids) else 0 ) self.share_inputs["pre_ids"][idx : idx + 1] = -1 has_prefill_task = True elif request.task_type.value == RequestType.DECODE.value: # decode task logger.debug(f"Handle decode request {request} at idx {idx}") encoder_block_num = len(request.block_tables) self.share_inputs["encoder_block_lens"][idx : idx + 1] = encoder_block_num self.share_inputs["block_tables"][idx : idx + 1, :] = -1 self.share_inputs["block_tables"][idx : idx + 1, :encoder_block_num] = np.array( request.block_tables, dtype="int32" ) continue else: # preempted task logger.debug(f"Handle preempted request {request} at idx {idx}") self.share_inputs["block_tables"][idx : idx + 1, :] = -1 self.share_inputs["stop_flags"][idx : idx + 1] = True self.share_inputs["seq_lens_this_time"][idx : idx + 1] = 0 self.share_inputs["seq_lens_decoder"][idx : idx + 1] = 0 self.share_inputs["seq_lens_encoder"][idx : idx + 1] = 0 self.share_inputs["is_block_step"][idx : idx + 1] = False continue assert len(request.eos_token_ids) == self.model_config.eos_tokens_lens self.share_inputs["eos_token_id"][:] = np.array(request.eos_token_ids, dtype="int64").reshape(-1, 1) self.share_inputs["top_p"][idx : idx + 1] = request.get("top_p", 0.7) self.share_inputs["top_k"][idx : idx + 1] = request.get("top_k", 0) self.share_inputs["top_k_list"][idx] = request.get("top_k", 0) self.share_inputs["min_p"][idx : idx + 1] = request.get("min_p", 0.0) self.share_inputs["min_p_list"][idx] = request.get("min_p", 0.0) self.share_inputs["temperature"][idx : idx + 1] = request.get("temperature", 0.95) self.share_inputs["penalty_score"][idx : idx + 1] = request.get("repetition_penalty", 1.0) self.share_inputs["frequency_score"][idx : idx + 1] = request.get("frequency_penalty", 0.0) self.share_inputs["presence_score"][idx : idx + 1] = request.get("presence_penalty", 0.0) self.share_inputs["min_dec_len"][idx : idx + 1] = request.get("min_tokens", 1) self.share_inputs["max_dec_len"][idx : idx + 1] = request.get( "max_tokens", self.model_config.max_model_len ) self.share_inputs["first_token_ids"][idx : idx + 1] = self.share_inputs["input_ids"][idx : idx + 1, :1] self.share_inputs["ori_seq_lens_encoder"][idx : idx + 1] = length if request.get("seed") is not None: self.share_inputs["infer_seed"][idx : idx + 1] = request.get("seed") if request.get("bad_words_token_ids") is not None and len(request.get("bad_words_token_ids")) > 0: bad_words_len = len(request.get("bad_words_token_ids")) self.share_inputs["bad_tokens_len"][idx : idx + 1] = bad_words_len self.share_inputs["bad_tokens"][idx : idx + 1, :bad_words_len] = np.array( request.get("bad_words_token_ids"), dtype="int64" ) else: self.share_inputs["bad_tokens_len"][idx : idx + 1] = 1 self.share_inputs["bad_tokens"][idx : idx + 1, :] = np.array([-1], dtype="int64") if request.get("stop_token_ids") is not None and request.get("stop_seqs_len") is not None: stop_seqs_num = len(request.get("stop_seqs_len")) for i in range(stop_seqs_num, self.model_config.max_stop_seqs_num): request.stop_seqs_len.append(0) self.share_inputs["stop_seqs_len"][:] = np.array(request.stop_seqs_len, dtype="int32") self.share_inputs["stop_seqs"][:stop_seqs_num, : len(request.get("stop_token_ids")[0])] = np.array( request.get("stop_token_ids"), dtype="int64" ) if has_prefill_task: self.share_inputs["not_need_stop"][0] = True def process_prefill_inputs(self, req_dicts: List[Request]): """Process inputs for prefill tasks and update share_inputs buffer""" req_len = len(req_dicts) for i in range(req_len): request = req_dicts[i] idx = request.idx length = request.prompt_token_ids_len self.share_inputs["input_ids"][idx : idx + 1, :length] = np.array(request.prompt_token_ids) assert len(request.eos_token_ids) == self.model_config.eos_tokens_lens self.share_inputs["eos_token_id"][:] = np.array(request.eos_token_ids, dtype="int64").reshape(-1, 1) self.share_inputs["pre_ids"][idx : idx + 1] = -1 self.share_inputs["top_p"][idx : idx + 1] = request.get("top_p", 0.7) self.share_inputs["top_k"][idx : idx + 1] = request.get("top_k", 0) self.share_inputs["top_k_list"][idx] = request.get("top_k", 0) self.share_inputs["min_p"][idx : idx + 1] = request.get("min_p", 0.0) self.share_inputs["min_p_list"][idx] = request.get("min_p", 0.0) self.share_inputs["temperature"][idx : idx + 1] = request.get("temperature", 0.95) self.share_inputs["penalty_score"][idx : idx + 1] = request.get("repetition_penalty", 1.0) self.share_inputs["frequency_score"][idx : idx + 1] = request.get("frequency_penalty", 0.0) self.share_inputs["presence_score"][idx : idx + 1] = request.get("presence_penalty", 0.0) self.share_inputs["seq_lens_this_time"][idx : idx + 1] = length self.share_inputs["step_seq_lens_encoder"][idx : idx + 1] = length self.share_inputs["seq_lens_encoder"][idx : idx + 1] = length self.share_inputs["seq_lens_decoder"][idx : idx + 1] = 0 self.share_inputs["step_idx"][idx : idx + 1] = 0 self.share_inputs["min_dec_len"][idx : idx + 1] = request.get("min_tokens", 1) self.share_inputs["max_dec_len"][idx : idx + 1] = request.get( "max_tokens", self.model_config.max_model_len ) self.share_inputs["stop_flags"][idx : idx + 1] = False self.share_inputs["first_token_ids"][idx : idx + 1] = self.share_inputs["input_ids"][idx : idx + 1, :1] self.share_inputs["ori_seq_lens_encoder"][idx : idx + 1] = length if request.get("seed") is not None: self.share_inputs["infer_seed"][idx : idx + 1] = request.get("seed") encoder_block_num = len(request.get("block_tables")) self.share_inputs["encoder_block_lens"][idx : idx + 1] = encoder_block_num self.share_inputs["block_tables"][idx : idx + 1, :] = -1 self.share_inputs["block_tables"][idx : idx + 1, :encoder_block_num] = np.array( request.block_tables, dtype="int32" ) if request.get("bad_words_token_ids") is not None and len(request.get("bad_words_token_ids")) > 0: bad_words_len = len(request.get("bad_words_token_ids")) self.share_inputs["bad_tokens_len"][idx : idx + 1] = bad_words_len self.share_inputs["bad_tokens"][idx : idx + 1, :bad_words_len] = np.array( request.get("bad_words_token_ids"), dtype="int64" ) else: self.share_inputs["bad_tokens_len"][idx : idx + 1] = 1 self.share_inputs["bad_tokens"][idx : idx + 1, :] = np.array([-1], dtype="int64") if request.get("stop_token_ids") is not None and request.get("stop_seqs_len") is not None: stop_seqs_num = len(request.get("stop_seqs_len")) for i in range(stop_seqs_num, self.model_config.max_stop_seqs_num): request.stop_seqs_len.append(0) self.share_inputs["stop_seqs_len"][:] = np.array(request.stop_seqs_len, dtype="int32") self.share_inputs["stop_seqs"][:stop_seqs_num, : len(request.get("stop_token_ids")[0])] = np.array( request.get("stop_token_ids"), dtype="int64" ) self.share_inputs["not_need_stop"][0] = True def _init_share_inputs(self, max_num_seqs: int): """Initialize all share buffers for model inputs. Note: In the future, we may abandon share buffers. """ self.MAX_INFER_SEED = 9223372036854775806 self.share_inputs = {} self.share_inputs["pre_ids"] = paddle.full( [max_num_seqs, self.parallel_config.max_model_len], -1, dtype="int64", ) self.share_inputs["input_ids"] = paddle.full( [max_num_seqs, self.parallel_config.max_model_len], self.model_config.pad_token_id, dtype="int64", ) self.share_inputs["eos_token_id"] = paddle.full([self.model_config.eos_tokens_lens, 1], 0, dtype="int64") self.share_inputs["top_p"] = paddle.full([max_num_seqs, 1], self.model_config.top_p, dtype="float32") self.share_inputs["top_k"] = paddle.full([max_num_seqs, 1], 0, dtype="int64") self.share_inputs["top_k_list"] = [0] * max_num_seqs self.share_inputs["min_p"] = paddle.full([max_num_seqs, 1], 0.0, dtype="float32") self.share_inputs["min_p_list"] = [0.0] * max_num_seqs self.share_inputs["temperature"] = paddle.full( [max_num_seqs, 1], self.model_config.temperature, dtype="float32" ) self.share_inputs["penalty_score"] = paddle.full( [max_num_seqs, 1], self.model_config.penalty_score, dtype="float32" ) self.share_inputs["frequency_score"] = paddle.full( [max_num_seqs, 1], self.model_config.frequency_score, dtype="float32", ) self.share_inputs["presence_score"] = paddle.full( [max_num_seqs, 1], self.model_config.presence_score, dtype="float32" ) self.share_inputs["min_dec_len"] = paddle.full([max_num_seqs, 1], self.model_config.min_length, dtype="int64") self.share_inputs["max_dec_len"] = paddle.full( [max_num_seqs, 1], self.model_config.max_model_len, dtype="int64" ) self.share_inputs["min_length"] = paddle.full([max_num_seqs, 1], self.model_config.min_length, dtype="int64") self.share_inputs["max_length"] = paddle.full( [max_num_seqs, 1], self.model_config.max_model_len, dtype="int64" ) self.share_inputs["seq_lens_this_time"] = paddle.full(max_num_seqs, 0, dtype="int32") self.share_inputs["seq_lens_encoder"] = paddle.full([max_num_seqs, 1], 0, dtype="int32") self.share_inputs["seq_lens_decoder"] = paddle.full([max_num_seqs, 1], 0, dtype="int32") self.share_inputs["step_seq_lens_encoder"] = paddle.full([max_num_seqs, 1], 0, dtype="int32") self.share_inputs["step_seq_lens_decoder"] = paddle.full([max_num_seqs, 1], 0, dtype="int32") self.share_inputs["prompt_lens"] = paddle.full([max_num_seqs, 1], 0, dtype="int64") self.share_inputs["step_idx"] = paddle.full([max_num_seqs, 1], 0, dtype="int64") self.share_inputs["not_need_stop"] = paddle.full( [1], False, dtype="bool" ).cpu() # TODO(gongshaotian): move to pinnd memory self.share_inputs["stop_flags"] = paddle.full([max_num_seqs, 1], True, dtype="bool") self.share_inputs["stop_nums"] = paddle.full([1], max_num_seqs, dtype="int64") self.share_inputs["bad_tokens"] = paddle.full([max_num_seqs, self.model_config.vocab_size], -1, dtype="int64") self.share_inputs["bad_tokens_len"] = paddle.full([max_num_seqs], 1, dtype="int64") self.share_inputs["next_tokens"] = paddle.full([max_num_seqs, 1], -1, dtype="int64") self.share_inputs["is_block_step"] = paddle.full([max_num_seqs], False, dtype="bool") self.share_inputs["encoder_block_lens"] = paddle.full([max_num_seqs], 0, dtype="int32") self.share_inputs["step_block_list"] = paddle.full([max_num_seqs], -1, dtype="int32") self.share_inputs["step_lens"] = paddle.full([1], 0, dtype="int32") self.share_inputs["recover_block_list"] = paddle.full([max_num_seqs], -1, dtype="int32") self.share_inputs["recover_lens"] = paddle.full([1], 0, dtype="int32") self.share_inputs["need_block_list"] = paddle.full([max_num_seqs], -1, dtype="int32") self.share_inputs["need_block_len"] = paddle.full([1], 0, dtype="int32") self.share_inputs["used_list_len"] = paddle.full([max_num_seqs], 0, dtype="int32") self.share_inputs["infer_seed"] = paddle.full([max_num_seqs, 1], 0, dtype="int64") self.share_inputs["first_token_ids"] = paddle.full([max_num_seqs, 1], -1, dtype="int64") self.share_inputs["ori_seq_lens_encoder"] = paddle.full([max_num_seqs, 1], 0, dtype="int32") self.share_inputs["system_lens"] = paddle.full([max_num_seqs, 1], 0, dtype="int32") self.share_inputs["system_ids"] = paddle.full([max_num_seqs, 1], -1, dtype="int32") # Initialize rotary position embedding tmp_position_ids = paddle.arange(self.parallel_config.max_model_len).reshape((1, -1)) # TODO(gongshaotian): move to models self.share_inputs["rope_emb"] = get_rope( rotary_dim=self.model_config.head_dim, position_ids=tmp_position_ids, base=self.model_config.rope_theta, model_config=self.model_config, ) # Set block tables pre_max_block_num = ( self.parallel_config.max_model_len + self.cache_config.block_size - 1 ) // self.cache_config.block_size + self.cache_config.enc_dec_block_num self.share_inputs["block_tables"] = paddle.full([max_num_seqs, pre_max_block_num], -1, dtype="int32") # Initialize free list free_list = list( range( self.parallel_config.total_block_num - 1, int(self.parallel_config.total_block_num * self.cache_config.kv_cache_ratio) - 1, -1, ) ) self.free_list_len = len(free_list) self.share_inputs["free_list"] = paddle.to_tensor(free_list, dtype="int32") self.share_inputs["free_list_len"] = paddle.full([1], self.free_list_len, dtype="int32") # Initialize stop seqs self.share_inputs["stop_seqs_len"] = paddle.full([self.model_config.max_stop_seqs_num], 0, dtype="int32") self.share_inputs["stop_seqs"] = paddle.full( [ self.model_config.max_stop_seqs_num, self.model_config.stop_seqs_max_len, ], -1, dtype="int32", ) def _prepare_inputs(self, is_dummy_run=False) -> None: """prepare the model inputs""" if envs.ENABLE_V1_KVCACHE_SCHEDULER and not is_dummy_run: recover_decode_task( self.share_inputs["stop_flags"], self.share_inputs["seq_lens_this_time"], self.share_inputs["seq_lens_encoder"], self.share_inputs["seq_lens_decoder"], self.share_inputs["step_seq_lens_decoder"], self.share_inputs["block_tables"], self.share_inputs["is_block_step"], self.parallel_config.block_size, ) self.forward_meta = xpu_pre_process( self.share_inputs["input_ids"], self.share_inputs["seq_lens_this_time"], self.share_inputs, use_speculate_method=False, draft_tokens=None, seq_lens_encoder=self.share_inputs["seq_lens_encoder"], seq_lens_decoder=self.share_inputs["seq_lens_decoder"], ) # Update bad tokens len max_bad_tokens_len = paddle.max(self.share_inputs["bad_tokens_len"]) self.forward_meta.attn_backend = self.attn_backends[0] self.initialize_attention_backend() # Get sampling metadata self.sampling_metadata = SamplingMetadata( temperature=self.share_inputs["temperature"], top_p=self.share_inputs["top_p"], top_k=self.share_inputs["top_k"], top_k_list=self.share_inputs["top_k_list"], min_p=self.share_inputs["min_p"], min_p_list=self.share_inputs["min_p_list"], seed=self.share_inputs["infer_seed"], step_idx=self.share_inputs["step_idx"], pre_token_ids=self.share_inputs["pre_ids"], frequency_penalties=self.share_inputs["frequency_score"], presence_penalties=self.share_inputs["presence_score"], repetition_penalties=self.share_inputs["penalty_score"], min_dec_lens=self.share_inputs["min_dec_len"], bad_words_token_ids=self.share_inputs["bad_tokens"][:, :max_bad_tokens_len], eos_token_ids=self.share_inputs["eos_token_id"], ) def load_model(self) -> None: """load or download model""" logger.info(f"Starting to load model {self.model_config.architectures[0]}") # 1. Load original model model_loader = get_model_loader(load_config=self.fd_config.load_config) self.model = model_loader.load_model(fd_config=self.fd_config) # 2. Load lora model # 3. Load drafter model(for speculative decoding) def get_model(self) -> nn.Layer: """get current model""" return self.model def initialize_attention_backend(self): """ Initialize attention meta data """ # Initialzie attention meta data for attn_backend in self.attn_backends: attn_backend.init_attention_metadata(self.forward_meta) def initialize_kv_cache(self) -> None: """ Initialize kv cache """ cache_kvs = {} max_block_num = self.num_gpu_blocks cache_type = self.parallel_config.dtype kv_cache_quant_type = None if ( self.quant_config and hasattr(self.quant_config, "kv_cache_quant_type") and self.quant_config.kv_cache_quant_type is not None ): cache_type = "uint8" kv_cache_quant_type = self.quant_config.kv_cache_quant_type # Get kv cache shape kv_cache_shape = self.attn_backends[0].get_kv_cache_shape( max_num_blocks=max_block_num, kv_cache_quant_type=kv_cache_quant_type ) for i in range(self.model_config.num_hidden_layers): cache_kvs[f"key_caches_{i}"] = paddle.full( shape=kv_cache_shape, fill_value=0, dtype=cache_type, ) cache_kvs[f"value_caches_{i}"] = paddle.full( shape=kv_cache_shape, fill_value=0, dtype=cache_type, ) self.share_inputs["caches"] = list(cache_kvs.values()) for value in cache_kvs.values(): del value paddle.device.xpu.empty_cache() def initialize_attn_backend(self) -> None: """ Initialize attention backends and forward metadata """ assert len(self.attn_backends) == 0 # TODO(gongshaotian): Get rank from config num_heads = self.model_config.num_attention_heads // self.parallel_config.tensor_parallel_size self.model_config.kv_num_heads = ( int(self.model_config.num_key_value_heads) // self.parallel_config.tensor_parallel_size ) head_dim = self.model_config.head_dim # Get the attention backend attn_cls = get_attention_backend() attn_backend = attn_cls( self.fd_config, kv_num_heads=self.model_config.kv_num_heads, num_heads=num_heads, head_dim=head_dim, ) if attn_backend is None: raise NotImplementedError( "Attention backend which you specified is not supported, please set FD_ATTENTION_BACKEND correctly." ) self.attn_backends.append(attn_backend) def capture_model(self) -> None: """ Trigger CUDA Graph capture for all shapes in 'CudaGraphConfig.cudagraph_capture_sizes' """ logger.warn("XPU not support cuda graph currently") pass @sot_warmup_guard(True) def sot_warmup(self) -> None: start_time = time.perf_counter() for batch_size in self.sot_warmup_sizes: self._dummy_run( num_tokens=self.parallel_config.max_num_batched_tokens, batch_size=batch_size, ) logger.info(f"SOT warmup the model with the batch size:{batch_size}") logger.info(f"SOT warmup took {time.perf_counter() - start_time} seconds") def exist_prefill(self): """ check whether prefill stage exist """ if int(paddle.max(self.share_inputs["seq_lens_encoder"])) != 0: return 1 else: return 0 def _dummy_prefill_inputs(self, num_tokens: int, batch_size: int): """Set dummy prefill inputs to share_inputs""" full_length = min(num_tokens // batch_size, self.parallel_config.max_model_len - 10) input_length = int(full_length - 512) block_num = ( input_length + self.cache_config.block_size - 1 ) // self.cache_config.block_size + self.cache_config.enc_dec_block_num for i in range(batch_size): idx = i self.share_inputs["input_ids"][idx : idx + 1, :input_length] = np.array([5] * input_length) self.share_inputs["eos_token_id"][:] = np.array([2], dtype="int64").reshape(-1, 1) self.share_inputs["seq_lens_this_time"][idx : idx + 1] = input_length self.share_inputs["step_seq_lens_encoder"][idx : idx + 1] = input_length self.share_inputs["seq_lens_encoder"][idx : idx + 1] = input_length self.share_inputs["seq_lens_decoder"][idx : idx + 1] = 0 self.share_inputs["step_idx"][idx : idx + 1] = 0 self.share_inputs["max_dec_len"][idx : idx + 1] = 10 self.share_inputs["stop_flags"][idx : idx + 1] = False self.share_inputs["first_token_ids"][idx : idx + 1] = self.share_inputs["input_ids"][idx : idx + 1, :1] self.share_inputs["ori_seq_lens_encoder"][idx : idx + 1] = input_length self.share_inputs["infer_seed"][idx : idx + 1] = random.randint(0, 922337203685477580) self.share_inputs["encoder_block_lens"][idx : idx + 1] = block_num self.share_inputs["block_tables"][idx : idx + 1, :block_num] = np.arange( idx * block_num, (idx + 1) * block_num, 1 ) def _dummy_run( self, num_tokens: paddle.Tensor, batch_size: paddle.Tensor, in_capturing: bool = False, ) -> paddle.Tensor: """ Use dummy inputs to run before formal execution. Args: num_tokens: Expected number of tokens generated """ self._dummy_prefill_inputs(num_tokens, batch_size) while True: self.execute_model(None, True) if int((self.share_inputs["seq_lens_this_time"] > 0).sum()) == 0: break def execute_model( self, model_forward_batch: Optional[List[Request]] = None, is_dummy_run: bool = False, num_running_requests: int = None, ) -> Optional[ModelRunnerOutput]: """ The Entrance of model execute. Args: model_forward_batch: 'Request' contains information related to prompt and is an abstract class at the server level, which is too granular for ModelRunner. We plan to replace it with 'ModelForwardBatch'. num_running_requests: batch_size intermediate_tensors: """ # 1. Prepare inputs of model and decoder. self._prepare_inputs(is_dummy_run=is_dummy_run) # 2. Padding inputs for cuda grph # 3. Execute model model_output = self.model(self.share_inputs["ids_remove_padding"], self.forward_meta) hiddden_states = xpu_process_output(model_output, self.share_inputs["cum_offsets"], self.forward_meta) # 4. Compute logits, Sample logits = self.model.compute_logits(hiddden_states) sampler_output = self.sampler(logits, self.sampling_metadata) # 5. Speculative decode # 6. Post Process model_output_data = ModelOutputData( next_tokens=self.share_inputs["next_tokens"], stop_flags=self.share_inputs["stop_flags"], step_idx=self.share_inputs["step_idx"], max_dec_len=self.share_inputs["max_dec_len"], pre_ids=self.share_inputs["pre_ids"], seq_lens_this_time=self.share_inputs["seq_lens_this_time"], eos_token_id=self.share_inputs["eos_token_id"], not_need_stop=self.share_inputs["not_need_stop"], input_ids=self.share_inputs["input_ids"], stop_nums=self.share_inputs["stop_nums"], seq_lens_encoder=self.share_inputs["seq_lens_encoder"], seq_lens_decoder=self.share_inputs["seq_lens_decoder"], is_block_step=self.share_inputs["is_block_step"], msg_queue_id=self.parallel_config.msg_queue_id, mp_rank=self.local_rank, use_ep=self.parallel_config.use_ep, # 投机解码 full_hidden_states=None, draft_tokens=None, actual_draft_token_num=None, accept_tokens=None, accept_num=None, ) xpu_post_process( sampled_token_ids=sampler_output.sampled_token_ids, model_output=model_output_data, share_inputs=self.share_inputs, block_size=self.parallel_config.block_size, skip_save_output=is_dummy_run, ) # 7. Updata 'infer_seed' and step_paddle() self.share_inputs["infer_seed"].add_(self.infer_seed_increment) self.share_inputs["infer_seed"][:] %= self.MAX_INFER_SEED step_paddle( self.share_inputs, self.cache_config.block_size, self.cache_config.enc_dec_block_num, ) return None def prepare_profile(self) -> None: """Prepare the profile run by setting the block number and initializing the KV cache.""" paddle.device.xpu.empty_cache() self.num_gpu_blocks = self.parallel_config.total_block_num self.initialize_kv_cache() @profile_run_guard(True) def profile_run(self) -> None: """Execute a forward pass with dummy inputs to profile the memory usage of the model.""" self._dummy_run( num_tokens=int(self.parallel_config.max_num_batched_tokens), batch_size=min(self.parallel_config.max_num_seqs, 1), ) def clear_block_table(self) -> None: """ Clear the block tables and kv cache after profiling. """ del self.share_inputs["caches"] if self.forward_meta is not None: del self.forward_meta.caches paddle.device.xpu.empty_cache() def cal_theortical_kvcache(self): """ Calculate the total block memory required at the model level TODO(gongshaotian): Move to Attention Backend """ """ Byte of dtype: - default(bf16): 2 - cache_int8: 1 - cache_int4: """ cache_quant_dtype = None if ( self.quant_config and hasattr(self.quant_config, "kv_cache_quant_type") and self.quant_config.kv_cache_quant_type is not None ): cache_quant_dtype = self.quant_config.kv_cache_quant_type if cache_quant_dtype is not None: # int8, int8_zp, fp8, fp8_zp byte_of_dtype = 1 else: # default byte_of_dtype = 2 hidden_dim = self.model_config.head_dim * self.model_config.kv_num_heads required_memory = ( byte_of_dtype * 2 # k + v * (self.cache_config.block_size * hidden_dim) * self.model_config.num_hidden_layers ) return required_memory def update_share_input_block_num(self, num_gpu_blocks: int) -> None: """ Set a globally unified block number and update the model's shared input. Args: num_gpu_blocks: """ self.num_gpu_blocks = num_gpu_blocks # Reset block table and kv cache with global block num self.initialize_kv_cache() # Reset free list free_list = list( range( self.num_gpu_blocks - 1, int(self.num_gpu_blocks * self.cache_config.kv_cache_ratio) - 1, -1, ) ) self.free_list_len = len(free_list) self.share_inputs.update( { "free_list": paddle.to_tensor(free_list, dtype="int32"), "free_list_len": paddle.full([1], self.free_list_len, dtype="int32"), } ) def not_need_stop(self) -> bool: """ """ return self.share_inputs["not_need_stop"][0]