This repository contains data and evaluation scripts of HalluQA (Chinese Hallucination Question-Answering) benchmark. The full data of HalluQA is in HalluQA.json. The paper introducing HalluQA and detailed experimental results of many Chinese large language models is here.
2024.2.28: We add the multiple-choice task for HalluQA. The test data for multiple-choice task is in HalluQA_mc.json. The multiple-choice QA prompt is in prompts/Chinese_QA_prompt_mc.txt .
HalluQA contains 450 meticulously designed adversarial questions, spanning multiple domains, and takes into account Chinese historical culture, customs, and social phenomena. The pipeline of data collection is shown above. At step 1, we write questions which we think may induce model hallucinations. At step 2, we use ChatGPT3.5/Puyu/GLM-130B to generate answers and collect adversarial questions. At step 3, we write multiple correct and wrong answers for each adversarial question and add support evidence. At step 4, we check all annotated question-answer pairs and remove low quality samples.
We show some data examples of HalluQA here.
We use non-hallucination rate as the metric of HalluQA, which represents the percentage of answers that do not exhibit hallucinations out of all model generated answers.
For automated evaluation, we use GPT-4 as the evaluator. GPT-4 will judge whether a generated answer exhibit hallucinations based on the given criterias and reference correct answers.
The prompt for GPT-4 based evaluation is in calculate_metrics.py
- Install requirements
pip install openai
- Run evaluation using our script.
python calculate_metrics.py --response_file_name gpt-4-0613_responses.json("replace with your own responses") --api_key "your openai api key" --organization "organization of your openai account"
- The results and metric will be saved in results.json and non_hallucination_rate.txt respectively.
We also provide a multiple-choice task for HalluQA. You need to first generate answers for each question using the model to be tested, using our multiple-choice prompt, and then calculate the accuracy of the multiple-choice task using the following script.
python calculate_metrics_mc.py --response_file_name <your_results_file_name>
Non-hallucination rate of each model for different types of questions:
Model | Misleading | Misleading-hard | Knowledge | Total |
---|---|---|---|---|
Retrieval-Augmented Chat Model | ||||
ERNIE-Bot | 70.86 | 46.38 | 75.73 | 69.33 |
Baichuan2-53B | 59.43 | 43.48 | 83.98 | 68.22 |
ChatGLM-Pro | 64.00 | 34.78 | 67.96 | 61.33 |
SparkDesk | 59.43 | 27.54 | 71.36 | 60.00 |
Chat Model | ||||
abab5.5-chat | 60.57 | 39.13 | 57.77 | 56.00 |
gpt-4-0613 | 76.00 | 57.97 | 32.04 | 53.11 |
Qwen-14B-chat | 75.43 | 23.19 | 30.58 | 46.89 |
Baichuan2-13B-chat | 61.71 | 24.64 | 32.04 | 42.44 |
Baichuan2-7B-chat | 54.86 | 28.99 | 32.52 | 40.67 |
gpt-3.5-turbo-0613 | 66.29 | 30.43 | 19.42 | 39.33 |
Xverse-13B-chat | 65.14 | 23.19 | 22.33 | 39.11 |
Xverse-7B-chat | 64.00 | 13.04 | 21.84 | 36.89 |
ChatGLM2-6B | 55.43 | 23.19 | 21.36 | 34.89 |
Qwen-7B-chat | 55.43 | 14.49 | 17.48 | 31.78 |
Baichuan-13B-chat | 49.71 | 8.70 | 23.30 | 31.33 |
ChatGLM-6b | 52.57 | 20.29 | 15.05 | 30.44 |
Pre-Trained Model | ||||
Qwen-14B | 54.86 | 23.19 | 24.76 | 36.22 |
Baichuan2-13B-base | 23.43 | 24.64 | 45.63 | 33.78 |
Qwen-7B | 48.57 | 20.29 | 16.99 | 29.78 |
Xverse-13B | 18.86 | 24.64 | 32.52 | 27.33 |
Baichuan-13B-base | 9.71 | 18.84 | 40.78 | 25.33 |
Baichuan2-7B-base | 8.00 | 21.74 | 41.26 | 25.33 |
Baichuan-7B-base | 6.86 | 15.94 | 37.38 | 22.22 |
Xverse-7B | 12.00 | 13.04 | 29.61 | 20.22 |
Each model's generated answers and the corresponding judgement of GPT-4 are in Chinese_LLMs_outputs/.
Here we report accuracy of the multiple-choice task for seven representative models.
- We sincerely thank annotators and staffs from Shanghai AI Lab who involved in this work.
- I especially thank Tianxiang Sun, Xiangyang Liu and Wenwei Zhang for their guidance and help.
- I am also grateful to Xinyang Pu for her help and patience.
@article{DBLP:journals/corr/abs-2310-03368,
author = {Qinyuan Cheng and
Tianxiang Sun and
Wenwei Zhang and
Siyin Wang and
Xiangyang Liu and
Mozhi Zhang and
Junliang He and
Mianqiu Huang and
Zhangyue Yin and
Kai Chen and
Xipeng Qiu},
title = {Evaluating Hallucinations in Chinese Large Language Models},
journal = {CoRR},
volume = {abs/2310.03368},
year = {2023},
url = {https://doi.org/10.48550/arXiv.2310.03368},
doi = {10.48550/arXiv.2310.03368},
eprinttype = {arXiv},
eprint = {2310.03368},
timestamp = {Thu, 19 Oct 2023 13:12:52 +0200},
biburl = {https://dblp.org/rec/journals/corr/abs-2310-03368.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}