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Autori principali: Hou, Wanda, Zhou, Leon, Hu, Hong-Ye, Chen, Yubei, You, Yi-Zhuang, Qi, Xiao-Liang
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.00763
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author Hou, Wanda
Zhou, Leon
Hu, Hong-Ye
Chen, Yubei
You, Yi-Zhuang
Qi, Xiao-Liang
author_facet Hou, Wanda
Zhou, Leon
Hu, Hong-Ye
Chen, Yubei
You, Yi-Zhuang
Qi, Xiao-Liang
contents We investigate the performance of large language models on repetitive deterministic prediction tasks and study how the sequence accuracy rate scales with output length. Each such task involves repeating the same operation n times. Examples include letter replacement in strings following a given rule, integer addition, and multiplication of string operators in many body quantum mechanics. If the model performs the task through a simple repetition algorithm, the success rate should decay exponentially with sequence length. In contrast, our experiments on leading large language models reveal a sharp double exponential drop beyond a characteristic length scale, forming an accuracy cliff that marks the transition from reliable to unstable generation. This indicates that the models fail to execute each operation independently. To explain this phenomenon, we propose a statistical physics inspired model that captures the competition between external conditioning from the prompt and internal interference among generated tokens. The model quantitatively reproduces the observed crossover and provides an interpretable link between attention induced interference and sequence level failure. Fitting the model to empirical results across multiple models and tasks yields effective parameters that characterize the intrinsic error rate and error accumulation factor for each model task pair, offering a principled framework for understanding the limits of deterministic accuracy in large language models.
format Preprint
id arxiv_https___arxiv_org_abs_2511_00763
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle How Focused Are LLMs? A Quantitative Study via Repetitive Deterministic Prediction Tasks
Hou, Wanda
Zhou, Leon
Hu, Hong-Ye
Chen, Yubei
You, Yi-Zhuang
Qi, Xiao-Liang
Artificial Intelligence
We investigate the performance of large language models on repetitive deterministic prediction tasks and study how the sequence accuracy rate scales with output length. Each such task involves repeating the same operation n times. Examples include letter replacement in strings following a given rule, integer addition, and multiplication of string operators in many body quantum mechanics. If the model performs the task through a simple repetition algorithm, the success rate should decay exponentially with sequence length. In contrast, our experiments on leading large language models reveal a sharp double exponential drop beyond a characteristic length scale, forming an accuracy cliff that marks the transition from reliable to unstable generation. This indicates that the models fail to execute each operation independently. To explain this phenomenon, we propose a statistical physics inspired model that captures the competition between external conditioning from the prompt and internal interference among generated tokens. The model quantitatively reproduces the observed crossover and provides an interpretable link between attention induced interference and sequence level failure. Fitting the model to empirical results across multiple models and tasks yields effective parameters that characterize the intrinsic error rate and error accumulation factor for each model task pair, offering a principled framework for understanding the limits of deterministic accuracy in large language models.
title How Focused Are LLMs? A Quantitative Study via Repetitive Deterministic Prediction Tasks
topic Artificial Intelligence
url https://arxiv.org/abs/2511.00763