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Autores principales: Peng, Keqin, Ding, Liang, Ouyang, Yuanxin, Fang, Meng, Tao, Dacheng
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2505.23480
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author Peng, Keqin
Ding, Liang
Ouyang, Yuanxin
Fang, Meng
Tao, Dacheng
author_facet Peng, Keqin
Ding, Liang
Ouyang, Yuanxin
Fang, Meng
Tao, Dacheng
contents Reasoning Large Language Models (RLLMs) have demonstrated impressive performance on complex tasks, largely due to the adoption of Long Chain-of-Thought (Long CoT) reasoning. However, they often exhibit overthinking -- performing unnecessary reasoning steps even after arriving at the correct answer. Prior work has largely focused on qualitative analyses of overthinking through sample-based observations of long CoTs. In contrast, we present a quantitative analysis of overthinking from the perspective of self-doubt, characterized by excessive token usage devoted to re-verifying already-correct answer. We find that self-doubt significantly contributes to overthinking. In response, we introduce a simple and effective prompting method to reduce the model's over-reliance on input questions, thereby avoiding self-doubt. Specifically, we first prompt the model to question the validity of the input question, and then respond concisely based on the outcome of that evaluation. Experiments on three mathematical reasoning tasks and four datasets with missing premises demonstrate that our method substantially reduces answer length and yields significant improvements across nearly all datasets upon 4 widely-used RLLMs. Further analysis demonstrates that our method effectively minimizes the number of reasoning steps and reduces self-doubt.
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publishDate 2025
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spellingShingle Revisiting Overthinking in Long Chain-of-Thought from the Perspective of Self-Doubt
Peng, Keqin
Ding, Liang
Ouyang, Yuanxin
Fang, Meng
Tao, Dacheng
Computation and Language
Reasoning Large Language Models (RLLMs) have demonstrated impressive performance on complex tasks, largely due to the adoption of Long Chain-of-Thought (Long CoT) reasoning. However, they often exhibit overthinking -- performing unnecessary reasoning steps even after arriving at the correct answer. Prior work has largely focused on qualitative analyses of overthinking through sample-based observations of long CoTs. In contrast, we present a quantitative analysis of overthinking from the perspective of self-doubt, characterized by excessive token usage devoted to re-verifying already-correct answer. We find that self-doubt significantly contributes to overthinking. In response, we introduce a simple and effective prompting method to reduce the model's over-reliance on input questions, thereby avoiding self-doubt. Specifically, we first prompt the model to question the validity of the input question, and then respond concisely based on the outcome of that evaluation. Experiments on three mathematical reasoning tasks and four datasets with missing premises demonstrate that our method substantially reduces answer length and yields significant improvements across nearly all datasets upon 4 widely-used RLLMs. Further analysis demonstrates that our method effectively minimizes the number of reasoning steps and reduces self-doubt.
title Revisiting Overthinking in Long Chain-of-Thought from the Perspective of Self-Doubt
topic Computation and Language
url https://arxiv.org/abs/2505.23480