import json import os import sys import time import zipfile from pathlib import Path import numpy as np import torch import transformers from transformers import AutoModelForCausalLM, AutoTokenizer import modules.shared as shared transformers.logging.set_verbosity_error() local_rank = None if shared.args.flexgen: from flexgen.flex_opt import (CompressionConfig, ExecutionEnv, OptLM, Policy, str2bool) if shared.args.deepspeed: import deepspeed from transformers.deepspeed import (HfDeepSpeedConfig, is_deepspeed_zero3_enabled) from modules.deepspeed_parameters import generate_ds_config # Distributed setup local_rank = shared.args.local_rank if shared.args.local_rank is not None else int(os.getenv("LOCAL_RANK", "0")) world_size = int(os.getenv("WORLD_SIZE", "1")) torch.cuda.set_device(local_rank) deepspeed.init_distributed() ds_config = generate_ds_config(shared.args.bf16, 1 * world_size, shared.args.nvme_offload_dir) dschf = HfDeepSpeedConfig(ds_config) # Keep this object alive for the Transformers integration def load_model(model_name): print(f"Loading {model_name}...") t0 = time.time() shared.is_RWKV = model_name.lower().startswith('rwkv-') # Default settings if not any([shared.args.cpu, shared.args.load_in_8bit, shared.args.load_in_4bit, shared.args.llama_bits > 0, shared.args.auto_devices, shared.args.disk, shared.args.gpu_memory is not None, shared.args.cpu_memory is not None, shared.args.deepspeed, shared.args.flexgen, shared.is_RWKV]): if any(size in shared.model_name.lower() for size in ('13b', '20b', '30b')): model = AutoModelForCausalLM.from_pretrained(Path(f"models/{shared.model_name}"), device_map='auto', load_in_8bit=True) else: model = AutoModelForCausalLM.from_pretrained(Path(f"models/{shared.model_name}"), low_cpu_mem_usage=True, torch_dtype=torch.bfloat16 if shared.args.bf16 else torch.float16).cuda() # FlexGen elif shared.args.flexgen: # Initialize environment env = ExecutionEnv.create(shared.args.disk_cache_dir) # Offloading policy policy = Policy(1, 1, shared.args.percent[0], shared.args.percent[1], shared.args.percent[2], shared.args.percent[3], shared.args.percent[4], shared.args.percent[5], overlap=True, sep_layer=True, pin_weight=shared.args.pin_weight, cpu_cache_compute=False, attn_sparsity=1.0, compress_weight=shared.args.compress_weight, comp_weight_config=CompressionConfig( num_bits=4, group_size=64, group_dim=0, symmetric=False), compress_cache=False, comp_cache_config=CompressionConfig( num_bits=4, group_size=64, group_dim=2, symmetric=False)) model = OptLM(f"facebook/{shared.model_name}", env, "models", policy) # DeepSpeed ZeRO-3 elif shared.args.deepspeed: model = AutoModelForCausalLM.from_pretrained(Path(f"models/{shared.model_name}"), torch_dtype=torch.bfloat16 if shared.args.bf16 else torch.float16) model = deepspeed.initialize(model=model, config_params=ds_config, model_parameters=None, optimizer=None, lr_scheduler=None)[0] model.module.eval() # Inference print(f"DeepSpeed ZeRO-3 is enabled: {is_deepspeed_zero3_enabled()}") # RMKV model (not on HuggingFace) elif shared.is_RWKV: from modules.RWKV import RWKVModel, RWKVTokenizer model = RWKVModel.from_pretrained(Path(f'models/{model_name}'), dtype="fp32" if shared.args.cpu else "bf16" if shared.args.bf16 else "fp16", device="cpu" if shared.args.cpu else "cuda") tokenizer = RWKVTokenizer.from_pretrained(Path('models')) return model, tokenizer # 4-bit LLaMA elif shared.args.llama_bits > 0 or shared.args.load_in_4bit: from modules.quantized_LLaMA import load_quantized_LLaMA model = load_quantized_LLaMA(model_name) # Custom else: command = "AutoModelForCausalLM.from_pretrained" params = ["low_cpu_mem_usage=True"] if not shared.args.cpu and not torch.cuda.is_available(): print("Warning: no GPU has been detected.\nFalling back to CPU mode.\n") shared.args.cpu = True if shared.args.cpu: params.append("low_cpu_mem_usage=True") params.append("torch_dtype=torch.float32") else: params.append("device_map='auto'") params.append("load_in_8bit=True" if shared.args.load_in_8bit else "torch_dtype=torch.bfloat16" if shared.args.bf16 else "torch_dtype=torch.float16") if shared.args.gpu_memory: memory_map = shared.args.gpu_memory max_memory = f"max_memory={{0: '{memory_map[0]}GiB'" for i in range(1, len(memory_map)): max_memory += (f", {i}: '{memory_map[i]}GiB'") max_memory += (f", 'cpu': '{shared.args.cpu_memory or '99'}GiB'}}") params.append(max_memory) elif not shared.args.load_in_8bit: total_mem = (torch.cuda.get_device_properties(0).total_memory/(1024*1024)) suggestion = round((total_mem-1000)/1000)*1000 if total_mem-suggestion < 800: suggestion -= 1000 suggestion = int(round(suggestion/1000)) print(f"\033[1;32;1mAuto-assiging --gpu-memory {suggestion} for your GPU to try to prevent out-of-memory errors.\nYou can manually set other values.\033[0;37;0m") params.append(f"max_memory={{0: '{suggestion}GiB', 'cpu': '{shared.args.cpu_memory or '99'}GiB'}}") if shared.args.disk: params.append(f"offload_folder='{shared.args.disk_cache_dir}'") command = f"{command}(Path(f'models/{shared.model_name}'), {', '.join(set(params))})" model = eval(command) # Loading the tokenizer if shared.model_name.lower().startswith(('gpt4chan', 'gpt-4chan', '4chan')) and Path("models/gpt-j-6B/").exists(): tokenizer = AutoTokenizer.from_pretrained(Path("models/gpt-j-6B/")) else: tokenizer = AutoTokenizer.from_pretrained(Path(f"models/{shared.model_name}/")) tokenizer.truncation_side = 'left' print(f"Loaded the model in {(time.time()-t0):.2f} seconds.") return model, tokenizer def load_soft_prompt(name): if name == 'None': shared.soft_prompt = False shared.soft_prompt_tensor = None else: with zipfile.ZipFile(Path(f'softprompts/{name}.zip')) as zf: zf.extract('tensor.npy') zf.extract('meta.json') j = json.loads(open('meta.json', 'r').read()) print(f"\nLoading the softprompt \"{name}\".") for field in j: if field != 'name': if type(j[field]) is list: print(f"{field}: {', '.join(j[field])}") else: print(f"{field}: {j[field]}") print() tensor = np.load('tensor.npy') Path('tensor.npy').unlink() Path('meta.json').unlink() tensor = torch.Tensor(tensor).to(device=shared.model.device, dtype=shared.model.dtype) tensor = torch.reshape(tensor, (1, tensor.shape[0], tensor.shape[1])) shared.soft_prompt = True shared.soft_prompt_tensor = tensor return name