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Code for fintune ChatGLM-6b using low-rank adaptation (LoRA)

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ChatGLM-finetune-LoRA

This repository contains code for fintune ChatGLM-6b using low-rank adaptation (LoRA).

We also provide a finetuned weight.

The minimum required GPU memory is 24G, RTX3090 is enough for training.

  • 2022/4/12: Add tensorboard. Support finetune the entire model (Much faster convergence and usually has better performance)
  • 2022/3/28: Optimized code structure, more simple and clear. Add training instruction.
  • 2022/3/24: Support Multi-GPU training, DeepSpeed, Batch collate. Using accelerate to launch train.py

Inference

续写 对话 x
周末适合哪里玩? 周末适合去北京 如何缓解焦虑? x
周末适合哪里玩? 周末适合去北京旅游。北京是中国的首都,有着悠久的历史和丰富的文化遗产。在这里你可以参观历史古迹、博物馆和文化遗址等景点。此外,北京的特色美食也不容错过,例如烤鸭和炸酱面等等。如果对历史文化感兴趣的话,建议去故宫、天安门广场、颐和园和长城等地游览;如果喜欢自然风光,可以去八达岭高速或者京承高速公路上自驾游,欣赏美丽的景色。 焦虑是一种较为常见的情绪反应,当人们面临不确定性、压力或风险时,可能会感到焦虑。以下是一些缓解焦虑的方法:\n\n1. 深呼吸:深呼吸可以帮助你放松身体和心灵。尝试缓慢地吸气,然后缓慢地呼气,重复几次。\n\n2. 渐进性肌肉松弛:这是一种放松身体的技巧,通过逐步收缩和松弛肌肉来减轻身体的紧张感。你可以在背部、腿部和手臂等部位练习渐进性肌肉松弛。\n\n3. 冥想:冥想是一种可以帮助你放松心灵和减轻焦虑的技巧。你可以通过集中注意力、呼吸、放松身体和关注内心的练习来冥想。\n\n4. 运动:运动可以帮助你释放紧张感和压力,同时也可以提高身体和心理的健康状况。你可以尝试跑步、瑜伽、游泳等运动。\n\n5. 寻求支持:与家人、朋友或专业人士谈论你的问题可以帮助你减轻焦虑。你可以寻求心理咨询或与支持团体联系。\n\n6. 改善生活方式:保持健康的饮食、充足的睡眠和规律的锻炼可以帮助你改善身体和心理的健康状况。\n\n请注意,如果你的焦虑症状持续很长时间或影响到你的日常生活,请寻求专业医疗帮助。 x

Easy to use

import loralib as lora
import lora_utils.insert_lora
import dataset.GLM as GLM_Data
from torch.utils.data import DataLoader
from transformers import AutoTokenizer, AutoModel

device = 'cuda'
checkpoint = "THUDM/chatglm-6b"


# load model
tokenizer = AutoTokenizer.from_pretrained(checkpoint, trust_remote_code=True)
model = AutoModel.from_pretrained(checkpoint, trust_remote_code=True)

# get LoRA model
lora_config = {
        'r': 32,
        'lora_alpha':32,
        'lora_dropout':0.1,
        'enable_lora':[True, True, True],
    }
model = lora_utils.insert_lora.get_lora_model(model, lora_config)
### trainable_params:22020096 (0.35%), non_trainable_params:6255206400

# get Dataloader
pairs = [{'prompt':'Hello!', 'completion':'Hi! This is ChatGLM.'}]
pairs_encoded = GLM_Data.encode_pairs(pairs, tokenizer)
train_dataset = GLM_Data.GLMDataset(pairs_encoded)
train_dataloader = DataLoader(dataset=train_dataset, collate_fn = GLM_Data.collate_fn, shuffle=True, batch_size=1)

# training
model.half().to(device)
batch = {k: v.to(device) for k, v in next(iter(train_dataloader)).items()}
outputs = model(**batch)
outputs.loss.backward()

Training

Using accelerate CLI tool to launch multiprocess / distributed training:

accelerate launch --config_file config/default_config.yaml train.py

If you want to finetune the entire model, using

accelerate launch --config_file config/default_config.yaml train_full.py

Don't forget to change num_processes to the number of GPUs you want to use.

Now accelerate supports ZeRO 2 (with offload), ZeRO 3 (with offload)

Try ZeRO 2 and no offload first, unless you encounter OOM.

ZeRO 2 (no offload) > ZeRO 2 (offload) > ZeRO 3 (no offload) > ZeRO 3 (offload)

Likes OpenAI's fintune API, the data should be in following structure:

[
    {'prompt': <enter the prompt here (can be instrcution)>, 'completion': <the expectation completion>},
    {'prompt': <enter the prompt here (can be instrcution)>, 'completion': <the expectation completion>},
    ...,
    {'prompt': <enter the prompt here (can be instrcution)>, 'completion': <the expectation completion>},
]

It is a list of prompt-completion pairs.

Stanford Alpaca's Dataset

Here we use the Stanford Alpaca's Dataset as an example for fine-tuning. We also provide a finetuned weight.

example line:

{'prompt': 'Below is an instruction that describes a task, paired with an input that provides further context. Write a response that appropriately completes the request.\n\n### Instruction:\nClassify the movie genres from the given context.\n\n### Input:\nThis movie tells the story of two brothers who were both born with magical powers.\n\n### Response:', 'completion': 'Fantasy'}

Training for Stanford Alpaca's Dataset should within 30min per epoch on 4*V100

You may observe a typical training loss curve: example_training_loss Note: vary with different dataset

LoRA

lora_config = {
        'r': 32,
        'lora_alpha':32,
        'lora_dropout':0.1,
        'enable_lora':[True, True, True],
    }

Using above LoRA config, we have trainable_params:22020096 (0.35%), non_trainable_params:6255206400

Save & Load

torch.save(lora.lora_state_dict(model), 'path to file you saved')
model.load_state_dict(torch.load('path to file you saved'), strict=False)

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