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Main Authors: Wang, Xunzhi, Zhang, Zhuowei, Chen, Gaonan, Li, Qiongyu, Luo, Bitong, Han, Zhixin, Wang, Haotian, li, Zhiyu, Gao, Hang, Hu, Mengting
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.12784
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author Wang, Xunzhi
Zhang, Zhuowei
Chen, Gaonan
Li, Qiongyu
Luo, Bitong
Han, Zhixin
Wang, Haotian
li, Zhiyu
Gao, Hang
Hu, Mengting
author_facet Wang, Xunzhi
Zhang, Zhuowei
Chen, Gaonan
Li, Qiongyu
Luo, Bitong
Han, Zhixin
Wang, Haotian
li, Zhiyu
Gao, Hang
Hu, Mengting
contents Despite recent progress in systematic evaluation frameworks, benchmarking the uncertainty of large language models (LLMs) remains a highly challenging task. Existing methods for benchmarking the uncertainty of LLMs face three key challenges: the need for internal model access, additional training, or high computational costs. This is particularly unfavorable for closed-source models. To this end, we introduce UBench, a new benchmark for evaluating the uncertainty of LLMs. Unlike other benchmarks, UBench is based on confidence intervals. It encompasses 11,978 multiple-choice questions spanning knowledge, language, understanding, and reasoning capabilities. Based on this, we conduct extensive experiments. This includes comparisons with other advanced uncertainty estimation methods, the assessment of the uncertainty of 20 LLMs, and an exploration of the effects of Chain-of-Thought (CoT) prompts, role-playing (RP) prompts, and temperature on model uncertainty. Our analysis reveals several crucial insights: 1) Our confidence interval-based methods are highly effective for uncertainty quantification; 2) Regarding uncertainty, outstanding open-source models show competitive performance versus closed-source models; 3) CoT and RP prompts present potential ways to improve model reliability, while the influence of temperature changes follows no universal rule. Our implementation is available at https://github.com/Cyno2232/UBENCH.
format Preprint
id arxiv_https___arxiv_org_abs_2406_12784
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle UBench: Benchmarking Uncertainty in Large Language Models with Multiple Choice Questions
Wang, Xunzhi
Zhang, Zhuowei
Chen, Gaonan
Li, Qiongyu
Luo, Bitong
Han, Zhixin
Wang, Haotian
li, Zhiyu
Gao, Hang
Hu, Mengting
Computation and Language
Despite recent progress in systematic evaluation frameworks, benchmarking the uncertainty of large language models (LLMs) remains a highly challenging task. Existing methods for benchmarking the uncertainty of LLMs face three key challenges: the need for internal model access, additional training, or high computational costs. This is particularly unfavorable for closed-source models. To this end, we introduce UBench, a new benchmark for evaluating the uncertainty of LLMs. Unlike other benchmarks, UBench is based on confidence intervals. It encompasses 11,978 multiple-choice questions spanning knowledge, language, understanding, and reasoning capabilities. Based on this, we conduct extensive experiments. This includes comparisons with other advanced uncertainty estimation methods, the assessment of the uncertainty of 20 LLMs, and an exploration of the effects of Chain-of-Thought (CoT) prompts, role-playing (RP) prompts, and temperature on model uncertainty. Our analysis reveals several crucial insights: 1) Our confidence interval-based methods are highly effective for uncertainty quantification; 2) Regarding uncertainty, outstanding open-source models show competitive performance versus closed-source models; 3) CoT and RP prompts present potential ways to improve model reliability, while the influence of temperature changes follows no universal rule. Our implementation is available at https://github.com/Cyno2232/UBENCH.
title UBench: Benchmarking Uncertainty in Large Language Models with Multiple Choice Questions
topic Computation and Language
url https://arxiv.org/abs/2406.12784