""" Date: 2024-11-06 10:05:11 LastEditors: djw LastEditTime: 2024-11-13 07:50:51 """ import math from dataclasses import dataclass import torch import torch.nn as nn from torch.nn import functional as F import math from typing import List, Optional, Tuple, Union import torch import torch.utils.checkpoint from torch import nn from ktransformers.server.balance_serve.inference.forward_batch import ForwardBatchInput, ForwardBatchOutput from ktransformers.models.custom_cache import KDeepSeekV3Cache from ktransformers.models.modeling_deepseek_v3 import DeepseekV3Model, DeepseekV3PreTrainedModel from ktransformers.models.configuration_deepseek_v3 import DeepseekV3Config torch.set_grad_enabled(False) torch.set_default_dtype(torch.bfloat16) import flashinfer class KDeepseekV3ForCausalLM(DeepseekV3PreTrainedModel): cache: KDeepSeekV3Cache use_cuda_graph = False def __init__( self, config: DeepseekV3Config, cache, ): super().__init__(config) self.model = DeepseekV3Model(config) self.config = config self.cache = cache self.vocab_size = config.vocab_size self.lm_head = nn.Linear(config.hidden_size, config.vocab_size, bias=False) def init_wrapper(self, use_cuda_graph, device, max_batch_size, max_pages): self.use_cuda_graph = use_cuda_graph self.workspace_buffer = torch.empty(128 * 1024 * 1024, dtype=torch.int8).to(0) self.qo_indptr_buf = torch.empty((max_batch_size+2,), dtype=torch.int32, device=device) self.paged_kv_indptr_buf = torch.empty((max_batch_size+2,), dtype=torch.int32, device=device) self.paged_kv_indices_buf = torch.empty((max_pages,), dtype=torch.int32, device=device) self.paged_kv_len_buf = torch.empty((max_batch_size+1,), dtype=torch.int32, device=device) self.bsz_tensor_buf = torch.empty((1, ), dtype=torch.int32, device=device) self.wrapper = flashinfer.mla.BatchMLAPagedAttentionWrapper( self.workspace_buffer, use_cuda_graph=use_cuda_graph, qo_indptr=self.qo_indptr_buf,kv_indptr=self.paged_kv_indptr_buf, kv_indices=self.paged_kv_indices_buf,kv_len_arr=self.paged_kv_len_buf, bsz_tensor=self.bsz_tensor_buf, backend = "fa2", ) def batch_embeddings(self, batch: ForwardBatchInput, device="cuda:0"): features = [] for i in range(batch.batch_size): tokens = batch.minibatch.tokens.contiguous() feature = ( self.model.embed_tokens(tokens.to(torch.device('cpu'))) .to(torch.bfloat16) .to(device=device) ) features.append(feature) return features def forward( self, batch: ForwardBatchInput | None = None, features: List[torch.Tensor] | None = None, bsz_tensors: torch.Tensor | None = None, num_tokens_tensors: torch.Tensor | None = None, page_idx: torch.Tensor | None = None, page_offset: torch.Tensor | None = None, cuda_graph_idx: int | None = -1 ) -> ForwardBatchOutput: current_stream = torch.cuda.current_stream() forward_batch_output = ForwardBatchOutput() hidden_states = features[0] with torch.cuda.stream(current_stream): residual = torch.zeros_like(hidden_states) for i, decode_layer in enumerate(self.model.layers): # can't use now, only one flashinfer wrapper if self.model.transfer_map is not None and i in self.model.transfer_map: prev_stream = torch.cuda.current_stream() cur_device = self.model.transfer_map[i] if cur_device not in self.model.stream_device_map: self.model.stream_device_map[cur_device] = torch.cuda.Stream(cur_device) torch.cuda.set_device(cur_device) self.model.stream_device_map[cur_device].wait_stream(prev_stream) torch.cuda.set_stream(self.model.stream_device_map[cur_device]) hidden_states = hidden_states.to( self.model.transfer_map[i], non_blocking=True ) batch.minibatch.position_ids = ( batch.minibatch.position_ids.to(self.model.transfer_map[i], non_blocking=True) if batch.minibatch.position_ids is not None else None ) hidden_states, residual = decode_layer.input_layernorm(hidden_states, num_tokens_tensors, residual) hidden_states = decode_layer.self_attn(hidden_states, self.cache, position_ids=batch.minibatch.position_ids, wrapper=self.wrapper, num_tokens_tensors=num_tokens_tensors, page_idx=page_idx, page_offset=page_offset ) hidden_states, residual = decode_layer.post_attention_layernorm(hidden_states, num_tokens_tensors, residual) if i < self.config.first_k_dense_replace: hidden_states = decode_layer.mlp(hidden_states, num_tokens_tensors) else: hidden_states = decode_layer.mlp(hidden_states.unsqueeze(0), num_tokens_tensors, cuda_graph_idx) hidden_states = hidden_states.squeeze(0) forward_batch_output = ForwardBatchOutput() with torch.cuda.stream(current_stream): local_logit = self.lm_head(self.model.norm(hidden_states, num_tokens_tensors, residual)[0], num_tokens_tensors) forward_batch_output.logits.append(local_logit) return forward_batch_output def flash_infer_attn_plan(self, batch: ForwardBatchInput, bsz_tensors, num_tokens_tensors, num_heads: int, head_dim_ckv: int, head_dim_kpe: int, page_size: int, causal: bool, sm_scale: float, q_data_type: torch.dtype, kv_data_type: torch.dtype,): minibatch = batch.minibatch self.wrapper.plan(minibatch.q_indptr, minibatch.kv_indptr, minibatch.kv_indices, minibatch.kv_len, num_heads, head_dim_ckv, head_dim_kpe, page_size, causal, sm_scale, q_data_type, kv_data_type, bsz_tensors)