import torch import torch.distributed from accelerate import init_empty_weights from opentelemetry import trace from pathlib import Path from safetensors import safe_open from transformers import AutoConfig from transformers.models.llama import LlamaTokenizer from typing import Optional, List from text_generation_server.models import FlashCausalLM from text_generation_server.models.custom_modeling.flash_llama_modeling import ( FlashLlamaForCausalLM, TensorParallelEmbedding, TensorParallelRowLinear, TensorParallelColumnLinear, ) from text_generation_server.utils import ( initialize_torch_distributed, weight_files, download_weights, weight_hub_files, LocalEntryNotFoundError, ) tracer = trace.get_tracer(__name__) class FlashLlama(FlashCausalLM): def __init__(self, model_id: str, revision: Optional[str] = None, quantize=False): self.past_pad = None if torch.cuda.is_available(): device = torch.device("cuda") dtype = torch.float16 else: raise NotImplementedError("FlashLlama is only available on GPU") tokenizer = LlamaTokenizer.from_pretrained( model_id, revision=revision, padding_side="left", truncation_side="left", ) config = AutoConfig.from_pretrained( model_id, revision=revision, ) # We do not use from_pretrained as we modified the model internal module layout try: filenames = weight_files(model_id, revision, ".bin") # Local files not found except LocalEntryNotFoundError: hub_files = weight_hub_files(model_id, revision, ".bin") filenames = download_weights(hub_files, model_id, revision) with init_empty_weights(): model = FlashLlamaForCausalLM(config) self.load_weights(model, filenames, quantize, device, dtype) self.model = model.eval().to(device) super(FlashCausalLM, self).__init__( tokenizer=tokenizer, requires_padding=False, dtype=dtype, device=device, ) @staticmethod def load_weights( model, filenames: List[Path], quantize: bool, device: torch.device, dtype: torch.dtype, ): for filename in filenames: state_dict = torch.load(filename, map_location="cpu") for key, value in state_dict.items(): value = value.to(device if not quantize else "cpu").to(dtype) layer_name = ".".join(key.split(".")[:4]) # Fused qkv if "q_proj" in key or "k_proj" in key or "v_proj" in key: final_key = layer_name + ".query_key_value.weight" # Fused gate and up projs elif "gate_proj" in key or "up_proj" in key: final_key = layer_name + ".gate_up_proj.weight" else: final_key = key module_name, param_name = final_key.rsplit(".", 1) module = model.get_submodule(module_name) try: current_parameter_tensor = module._parameters[param_name] except KeyError: current_parameter_tensor = None if current_parameter_tensor is not None: if current_parameter_tensor.device == torch.device("meta"): # Init qkv if "query_key_value" in final_key: module._parameters[param_name] = value.new_empty( (value.shape[0] * 3, value.shape[1]) ) # Init gate and up proj elif "gate_up_proj" in final_key: module._parameters[param_name] = value.new_empty( (value.shape[0] * 2, value.shape[1]) ) # Copy to correct slice if "q_proj" in key: module._parameters[param_name][: value.shape[0]] = value elif "k_proj" in key: module._parameters[param_name][ value.shape[0] : value.shape[0] * 2 ] = value elif "v_proj" in key: module._parameters[param_name][value.shape[0] * 2 :] = value elif "gate_proj" in key: module._parameters[param_name][: value.shape[0]] = value elif "up_proj" in key: module._parameters[param_name][value.shape[0] :] = value else: if current_parameter_tensor.shape != value.shape: raise ValueError( f"Name {final_key} -- Current {current_parameter_tensor.shape} and got {value.shape}" ) module._parameters[param_name] = value else: module._buffers[param_name] = value del value uninitialized_parameters = [] for n, p in model.named_parameters(): if p.data.device == torch.device("meta"): uninitialized_parameters.append(n) if uninitialized_parameters: raise RuntimeError( f"found uninitialized parameters in model: {uninitialized_parameters}" ) torch.cuda.empty_cache() model.post_load_weights(quantize) class FlashLlamaSharded(FlashLlama): def __init__( self, model_id: str, revision: Optional[str] = None, quantize: bool = False ): self.past_pad = None self.process_group, self.rank, self.world_size = initialize_torch_distributed() self.master = self.rank == 0 if torch.cuda.is_available(): device = torch.device(f"cuda:{self.rank}") dtype = torch.float16 else: raise NotImplementedError("FlashLlama is only available on GPU") tokenizer = LlamaTokenizer.from_pretrained( model_id, revision=revision, padding_side="left", truncation_side="left", ) config = AutoConfig.from_pretrained( model_id, revision=revision, ) torch.distributed.barrier(group=self.process_group) filenames = weight_files(model_id, revision=revision, extension=".safetensors") with init_empty_weights(): model = FlashLlamaForCausalLM(config, process_group=self.process_group) torch.distributed.barrier(group=self.process_group) self.load_weights( model, filenames, quantize=quantize, device=device, dtype=dtype, rank=self.rank, world_size=self.world_size, ) self.model = model.eval().to(device) torch.distributed.barrier(group=self.process_group) super(FlashCausalLM, self).__init__( tokenizer=tokenizer, requires_padding=False, dtype=dtype, device=device, ) @staticmethod def load_weights( model, filenames: List[str], quantize: bool, device: torch.device, dtype: torch.dtype, rank: int, world_size: int, ): for file in filenames: with safe_open( file, framework="pt", device=str(device) if not quantize else "cpu" ) as f: for name in f.keys(): slice_ = f.get_slice(name) layer_name = ".".join(name.split(".")[:4]) # Fused qkv if "q_proj" in name or "k_proj" in name or "v_proj" in name: final_name = layer_name + ".query_key_value.weight" # Fused gate and up projs elif "gate_proj" in name or "up_proj" in name: final_name = layer_name + ".gate_up_proj.weight" else: final_name = name module_name, param_name = final_name.rsplit(".", 1) module = model.get_submodule(module_name) if isinstance(module, TensorParallelColumnLinear): size = slice_.get_shape()[0] block_size = size // world_size start = rank * block_size stop = (rank + 1) * block_size tensor = slice_[start:stop] elif isinstance(module, TensorParallelRowLinear): size = slice_.get_shape()[1] block_size = size // world_size start = rank * block_size stop = (rank + 1) * block_size tensor = slice_[:, start:stop] elif isinstance(module, TensorParallelEmbedding): size = slice_.get_shape()[0] block_size = size // world_size start = rank * block_size stop = (rank + 1) * block_size tensor = slice_[start:stop] elif name == "lm_head.weight" and model.model.tp_embeddings: size = slice_.get_shape()[0] block_size = size // world_size start = rank * block_size stop = (rank + 1) * block_size tensor = slice_[start:stop] else: try: tensor = slice_[:] except: tensor = f.get_tensor(name) tensor = tensor.contiguous().to(dtype) try: current_parameter_tensor = module._parameters[param_name] except KeyError: current_parameter_tensor = None if current_parameter_tensor is not None: if current_parameter_tensor.device == torch.device("meta"): # Init qkv if "query_key_value" in final_name: module._parameters[param_name] = tensor.new_empty( (tensor.shape[0] * 3, tensor.shape[1]) ) # Init gate and up proj elif "gate_up_proj" in final_name: module._parameters[param_name] = tensor.new_empty( (tensor.shape[0] * 2, tensor.shape[1]) ) # Init gate and up proj if "q_proj" in name: module._parameters[param_name][: tensor.shape[0]] = tensor elif "k_proj" in name: module._parameters[param_name][ tensor.shape[0] : tensor.shape[0] * 2 ] = tensor elif "v_proj" in name: module._parameters[param_name][ tensor.shape[0] * 2 : ] = tensor elif "gate_proj" in name: module._parameters[param_name][: tensor.shape[0]] = tensor elif "up_proj" in name: module._parameters[param_name][tensor.shape[0] :] = tensor else: if current_parameter_tensor.shape != tensor.shape: raise ValueError( f"Name {name} -- Current {current_parameter_tensor.shape} and got {tensor.shape}" ) module._parameters[param_name] = tensor else: module._buffers[param_name] = tensor uninitialized_parameters = [] for n, p in model.named_parameters(): if p.data.device == torch.device("meta"): uninitialized_parameters.append(n) if uninitialized_parameters: raise RuntimeError( f"found uninitialized parameters in model: {uninitialized_parameters}" ) torch.cuda.empty_cache() model.post_load_weights(quantize)