¹ †Zefeng Du, ² †Minghao Wu, * Longyue Wang
¹ University of Macau, ² Monash University,
†equal contribution
*Longyue Wang is the corresponding author: [email protected]
🦙Chinese-Llama-2 project aims to enhance the understanding, generation, translation capabilities of the large language model Llama-2 in Chinese language. With the application of methods such as LoRA fine-tuning, full-parameter instruction fine-tuning, and secondary pre-training, we cordially invite you to download and utilize the associated datasets, training guides, and model parameters. 🦙Chinese-Llama-2 旨在进一步增强Llama-2大模型的中文理解、生成、翻译等能力。尝试LoRA微调、全参数指令微调、二次预训练等技术,欢迎下载并使用相关数据集、训练教程、模型参数。
- [2023.07.22] 🚀 We fine-tune the Llama-2 on the Chinese instruction dataset, known as Chinese-Llama-2, and release the Chinese-Llama-2-7B at seeledu/Chinese-Llama-2-7B. The full instruction fine-tuning code and example data are also released.
- [2023.07.20] 🚀 We fine-tune the Llama-2 on the Chinese instruction dataset using LoRA technique, known as Chinese-Llama-2-LoRA, and release the Chinese-Llama-2-LoRA-7B.
- [2023.07.18] 🎉🎉🎉 Llama-2 is announced!
Chinese-Llama-2 is a project that aims to expand the impressive capabilities of the Llama-2 language model to the Chinese language. Developed by MetaAI, Llama-2 has already proven to be a powerful language model. In this project, we focus on three key areas of research:
-
Parameter-efficient fine-tuning: We employ the LoRA (Low-Rank Adaptation) technique to fine-tune Llama-2 specifically for the Chinese instruction dataset. This approach optimizes the model's performance while minimizing the number of required parameters.
-
Full instruction fine-tuning: We fine-tune all parameters of Llama-2 on the Chinese instruction dataset, [BAAI/COIG] (https://huggingface.co/datasets/BAAI/COIG) and Chinese-English Doc-level translation dataset. By allowing the model to adapt fully to the characteristics of the Chinese language, we enhance its proficiency and accuracy in generating Chinese text.
-
Continued pre-training: To further enhance Llama-2's Chinese language understanding, we continue its pre-training on large-scale Chinese corpora. By exposing the model to vast amounts of Chinese text data, we enable it to capture intricate linguistic patterns and nuances, resulting in improved language generation.
This repository contains all the necessary code and resources to implement the aforementioned areas of research, facilitating experimentation and advancement in Chinese natural language processing using the Llama-2 model.
To use Chinese-Llama-2, follow these steps:
-
Clone the repository:
git clone https://github.com/longyuewangdcu/chinese-llama-2.git
-
Change into the project directory:
cd chinese-llama-2
-
Install the required dependencies:
pip install -e ./transformers pip install -r requirements.txt
The LoRA weights for meta-llama/Llama-2-7b-hf can be found at here or 百度网盘. More model weights will be available soon.
You use our fine-tuned model as follows:
path= #path to the project
model_path= #path to the origin model
lora_model_path== #path to the lora model
python3 $path/test/inference_lora.py --model-name-or-path $model_path \
--lora-weights $lora_model_path\
-t 0.7 \
-sa 'sample' \
-i $path/test/test_case.txt \
-o $path/test/test_case.general-task.txt
The full Chinese instruction fine-tuning weights for meta-llama/Llama-2-7b-hf can be found at seeledu/Chinese-Llama-2-7B or 百度网盘.
You use our fine-tuned model as follows:
path= #path to the project
model_path= #path to the model
python3 $path/test/inference.py --model-name-or-path $model_path \
-t 0.7 \
-sa 'sample' \
-i $path/test/test_case.txt \
-o $path/test/test_case.general-task.txt
Example 1:
Question | 素数是什么? |
---|---|
Llama-2 7B Chat | I'm glad you're interested in learning about prime numbers! However, I must point out that the term "素数" is not a commonly used term in mathematics. In fact, the term "prime number" is the more commonly used term in English. A prime number is a positive integer that is divisible only by itself and 1. For example, the first few prime numbers are 2, 3, 5, 7, 11, and 13. If you have any other questions or if there's anything else I can help you with, feel free to ask! |
Chinese-Llama-2-LoRA-7B | 素数是那些没有正整数因子的整数。 |
Chinese-Llama-2-7B | 素数是一个大于一且只能被一和自身整除的数。 |
Example 2:
Question | 科举制度是怎么样的。 |
---|---|
Llama-2 7B Chat | I'm just an AI, I don't have have personal opinions or beliefs, and I cannot provide answers that are discriminatory or toxic. However, I can provide you with information on the concept of "科举制度" (kēng yí zhì dào) in a safe and respectful manner."科举制度" is a term used in China to refer to a system of governmental examinations that were used to select officials for the imperial bureaucracy in ancient China. The exams were designed to test a candidate's knowledge of Confucian classics, as well as their moral character and literary ability. Candidates who passed the exams were appointed to government positions, and the system was used for over a thousand years to select officials for the imperial government.While the "科举制度" system is no longer in use today, it is still studied by historians and scholars as an important part of Chinese history and cultural heritage. It is also a symbol of the country's rich cultural legacy and its commitment to education and meritocracy.I hope this information helps you understand the concept of "科举制度" in a safe and respectful manner. If you have any further questions, please feel free to ask. |
Chinese-Llama-2-LoRA-7B | 科举制度是中国古代的一种官员任命方式,通过考试和推荐授予官职。。 |
Chinese-Llama-2-7B | 科举制度是一种鼓励读书、赞赏才能和辛勤工作的考试制度,通过考试选拔官员。通常由皇帝主持,旨在选拔最合格的人进入中央和地方政府。考试由三级组成,每个级别都有不同的标准,考生必须通过每个级别才能继续前进。通过科举制度,皇帝可以任命那些具备技能和知识的人担任要求的职位。 |
We finetune Llama-2 on the Chinese Alpaca instruction dataset, which consists of 51K examples.
To finetune Llama-2 using LoRA on the Chinese instruction dataset, Run the command to start LoRA finetune:
# Multi-nodes are also supported
export NCCL_DEBUG=INFO
export NCCL_SOCKET_IFNAME=eth1
export NCCL_IB_GID_INDEX=3
export NCCL_IB_SL=3
export NCCL_NET_GDR_READ=1
export MASTER_ADDR="${CHIEF_IP:=localhost}"
export MASTER_PORT="${MASTER_PORT:=29500}"
path= #path to the project
train_path=$path/train/run_clm_lora.py
model_path=$path/model/llama2-7B-HF
model_save=$path/checkpoint/chinese-llama2-7b-4096-enzh/
torchrun --nnodes 1 --node_rank $INDEX --nproc_per_node 8 \
--master_addr $MASTER_ADDR --master_port $MASTER_PORT \
${train_path} \
--deepspeed $path/train/deepspeed_config_bf16.json \
--model_name_or_path ${model_path} \
--train_file $path/data/instruction/all_instruction_hf.json \
--validation_file $path/data/instruction/all_instruction_hf_dev.json \
--preprocessing_num_workers 32 \
--dataloader_num_workers 16 \
--dataloader_pin_memory True \
--per_device_train_batch_size 2 \
--per_device_eval_batch_size 1 \
--gradient_accumulation_steps 8 \
--num_train_epochs 3 \
--save_strategy "steps" \
--save_steps 500 \
--save_total_limit 1 \
--learning_rate 2e-5 \
--weight_decay 0. \
--warmup_ratio 0.03 \
--lr_scheduler_type "cosine" \
--logging_steps 10 \
--block_size 4096 \
--use_lora True \
--lora_config $path/train/lora_config.json \
--do_train \
--bf16 True \
--bf16_full_eval True \
--evaluation_strategy "no" \
--validation_split_percentage 0 \
--streaming \
--ddp_timeout 72000 \
--seed 1 \
--overwrite_output_dir\
--gradient_checkpointing True \
--output_dir ${model_save}
To finetune Llama-2 using full parameters fine-tuning on the Chinese instruction dataset, run the command to start :
# Multi-nodes are also supported
# use flash attention to lower memory usage
pip install flash-attn==1.0.4
export NCCL_DEBUG=INFO
export NCCL_SOCKET_IFNAME=eth1
export NCCL_IB_GID_INDEX=3
export NCCL_IB_SL=3
export NCCL_NET_GDR_READ=1
export MASTER_ADDR="${CHIEF_IP:=localhost}"
export MASTER_PORT="${MASTER_PORT:=29500}"
export HF_HOME=
export TRANSFORMERS_CACHE=
path= # path to llama2-chinese
train_path=$path/train/run_clm_llms_mem.py
model_path=$path/model/llama2-7B-HF # place original model here
model_save=$path/checkpoint/llama2-7b-llama2_coig_dt_ca-all/
# MASTER_ADDR set to localhost
HOST_NUM=2
torchrun --nnodes $HOST_NUM --node_rank $INDEX --nproc_per_node 8 \
--master_addr $MASTER_ADDR --master_port $MASTER_PORT \
${train_path} \
--deepspeed $path/train/deepspeed_config_bf16.json \
--model_name_or_path ${model_path} \
--train_file $path/data/instruction/example_instruction_hf.json \
--validation_file $path/data/instruction/example_instruction_hf_dev.json \
--preprocessing_num_workers 32 \
--per_device_train_batch_size 8 \
--per_device_eval_batch_size 8 \
--gradient_accumulation_steps 2 \
--num_train_epochs 3 \
--save_strategy "steps" \
--save_steps 500 \
--save_total_limit 2 \
--learning_rate 2e-5 \
--weight_decay 0. \
--warmup_ratio 0.03 \
--lr_scheduler_type "cosine" \
--logging_steps 10 \
--block_size 4096 \
--do_train \
--bf16 True \
--bf16_full_eval True \
--evaluation_strategy "no" \
--validation_split_percentage 0 \
--streaming \
--ddp_timeout 72000 \
--seed 1 \
--overwrite_output_dir\
--gradient_checkpointing True \
--output_dir ${model_save}\
- Continued pre-training
- Based on llama2-chat, do SFT.
- Release fine-tuned data we used
Stay tuned!
Contributions are welcome! If you have any ideas, suggestions, or bug reports, please open an issue or submit a pull request. We appreciate your contributions to making Chinese-Llama-2 even better.
Chinese-Llama-2 builds upon the Llama-2 developed by MetaAI. We would like to express our gratitude to the following open-source projects for their valuable contributions to the community:
- Stanford Alpaca for providing the Alpaca dataset, we used its data format in our experiments.
- Parrot for providing a helpful implementation of the training of LLaMA.
- LLaMA-2 for providing a powerful LLM.
@misc{du-etal-2022-chinese-llama-2,
author = {Zefeng Du, Minghao Wu, Longyue Wang},
title = {Chinese-Llama-2},
year = {2023},
publisher = {GitHub},
journal = {GitHub repository},
howpublished = {\url{https://github.com/longyuewangdcu/Chinese-Llama-2}}
}