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mtbench_generate.py
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mtbench_generate.py
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import torch
import os
from transformers import (
AutoModelForCausalLM,
AutoTokenizer,
AutoConfig
)
import argparse
import torch.nn as nn
from datasets import load_dataset
import functools
from tqdm import tqdm
from datautils import get_loaders
try:
from llava.model import * # required for llava
except ImportError:
print("If want to quantize llave models, you should manually install llava from https://github.com/haotian-liu/LLaVA")
def get_act_scales(model, dataloader, num_samples=128):
model.eval()
device = next(model.parameters()).device
act_scales = {}
def stat_tensor(name, tensor):
hidden_dim = tensor.shape[-1]
tensor = tensor.view(-1, hidden_dim).abs().detach()
comming_max = torch.max(tensor, dim=0)[0].float().cpu()
if name in act_scales:
act_scales[name] = torch.max(act_scales[name], comming_max)
else:
act_scales[name] = comming_max
def stat_input_hook(m, x, y, name):
if isinstance(x, tuple):
x = x[0]
stat_tensor(name, x)
hooks = []
for name, m in model.named_modules():
if isinstance(m, nn.Linear):
hooks.append(
m.register_forward_hook(
functools.partial(stat_input_hook, name=name)))
for i in tqdm(range(num_samples)):
model(dataloader[i][0].to(device))
for h in hooks:
h.remove()
return act_scales
def get_act_shifts(model, dataloader, num_samples=128):
model.eval()
device = next(model.parameters()).device
act_shifts = {}
def stat_tensor(name, tensor):
hidden_dim = tensor.shape[-1]
tensor = tensor.view(-1, hidden_dim).detach()
comming_max = torch.max(tensor, dim=0)[0].float().cpu()
comming_min = torch.min(tensor, dim=0)[0].float().cpu()
if name in act_shifts:
act_shifts[name] = 0.99*act_shifts[name] + 0.01 *((comming_max+comming_min)/2)
else:
act_shifts[name] = (comming_max+comming_min)/2
def stat_input_hook(m, x, y, name):
if isinstance(x, tuple):
x = x[0]
stat_tensor(name, x)
hooks = []
for name, m in model.named_modules():
if isinstance(m, nn.Linear):
hooks.append(
m.register_forward_hook(
functools.partial(stat_input_hook, name=name))
)
for i in tqdm(range(num_samples)):
model(dataloader[i][0].to(device))
for h in hooks:
h.remove()
return act_shifts
def build_model_and_tokenizer(model_name):
kwargs = {"torch_dtype": torch.float16, "device_map": "auto"}
tokenizer = AutoTokenizer.from_pretrained(model_name)
model = AutoModelForCausalLM.from_pretrained(model_name, **kwargs)
return model, tokenizer
def parse_args():
parser = argparse.ArgumentParser()
parser.add_argument('--model', type=str,
default='/cpfs01/user/chenmengzhao/llama_quantization/llama-hf/llama-7b', help='model name')
parser.add_argument('--scales-output-path', type=str, default='./act_scales/',
help='where to save the act scales')
parser.add_argument('--shifts-output-path', type=str, default='./act_shifts/',
help='where to save the act shifts')
parser.add_argument("--calib_dataset",type=str,default="wikitext2",
choices=["wikitext2", "ptb", "c4", "mix","pile"],
help="Where to extract calibration data from.",)
parser.add_argument('--num-samples', type=int, default=128)
parser.add_argument('--seq-len', type=int, default=2048)
parser.add_argument("--seed", type=int, default=2, help="Seed for sampling the calibration data.")
args = parser.parse_args()
return args
@torch.no_grad()
def main():
args = parse_args()
model, tokenizer = build_model_and_tokenizer(args.model)
dataloader, _ = get_loaders(
args.calib_dataset,
nsamples=args.num_samples,
seed=args.seed,
model=args.model,
seqlen=args.seq_len,
)
args.net = args.model.split('/')[-1]
act_scales = get_act_scales(model, dataloader,args.num_samples)
save_path = os.path.join(args.scales_output_path,f'{args.net}.pt')
os.makedirs(os.path.dirname(save_path), exist_ok=True)
torch.save(act_scales, save_path)
act_shifts = get_act_shifts(model, dataloader,args.num_samples)
save_path = os.path.join(args.shifts_output_path,f'{args.net}.pt')
os.makedirs(os.path.dirname(save_path), exist_ok=True)
torch.save(act_shifts, save_path)
if __name__ == '__main__':
main()