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Main Authors: Zheng, Lifan, Chen, Jiawei, Yin, Qinghong, Zhang, Jingyuan, Zeng, Xinyi, Tian, Yu
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.10400
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author Zheng, Lifan
Chen, Jiawei
Yin, Qinghong
Zhang, Jingyuan
Zeng, Xinyi
Tian, Yu
author_facet Zheng, Lifan
Chen, Jiawei
Yin, Qinghong
Zhang, Jingyuan
Zeng, Xinyi
Tian, Yu
contents Ensuring the reliability of agent architectures and effectively identifying problematic agents when failures occur are crucial challenges in multi-agent systems (MAS). Advances in large language models (LLMs) have established LLM-based agents as a major branch of MAS, enabling major breakthroughs in complex problem solving and world modeling. However, the reliability implications of this shift remain largely unexplored. i.e., whether substituting traditional agents with LLM-based agents can effectively enhance the reliability of MAS. In this work, we investigate and quantify the reliability of LLM-based agents from the perspective of Byzantine fault tolerance. We observe that LLM-based agents demonstrate stronger skepticism when processing erroneous message flows, a characteristic that enables them to outperform traditional agents across different topological structures. Motivated by the results of the pilot experiment, we design CP-WBFT, a confidence probe-based weighted Byzantine Fault Tolerant consensus mechanism to enhance the stability of MAS with different topologies. It capitalizes on the intrinsic reflective and discriminative capabilities of LLMs by employing a probe-based, weighted information flow transmission method to improve the reliability of LLM-based agents. Extensive experiments demonstrate that CP-WBFT achieves superior performance across diverse network topologies under extreme Byzantine conditions (85.7\% fault rate). Notably, our approach surpasses traditional methods by attaining remarkable accuracy on various topologies and maintaining strong reliability in both mathematical reasoning and safety assessment tasks.
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Rethinking the Reliability of Multi-agent System: A Perspective from Byzantine Fault Tolerance
Zheng, Lifan
Chen, Jiawei
Yin, Qinghong
Zhang, Jingyuan
Zeng, Xinyi
Tian, Yu
Multiagent Systems
Artificial Intelligence
Computation and Language
Ensuring the reliability of agent architectures and effectively identifying problematic agents when failures occur are crucial challenges in multi-agent systems (MAS). Advances in large language models (LLMs) have established LLM-based agents as a major branch of MAS, enabling major breakthroughs in complex problem solving and world modeling. However, the reliability implications of this shift remain largely unexplored. i.e., whether substituting traditional agents with LLM-based agents can effectively enhance the reliability of MAS. In this work, we investigate and quantify the reliability of LLM-based agents from the perspective of Byzantine fault tolerance. We observe that LLM-based agents demonstrate stronger skepticism when processing erroneous message flows, a characteristic that enables them to outperform traditional agents across different topological structures. Motivated by the results of the pilot experiment, we design CP-WBFT, a confidence probe-based weighted Byzantine Fault Tolerant consensus mechanism to enhance the stability of MAS with different topologies. It capitalizes on the intrinsic reflective and discriminative capabilities of LLMs by employing a probe-based, weighted information flow transmission method to improve the reliability of LLM-based agents. Extensive experiments demonstrate that CP-WBFT achieves superior performance across diverse network topologies under extreme Byzantine conditions (85.7\% fault rate). Notably, our approach surpasses traditional methods by attaining remarkable accuracy on various topologies and maintaining strong reliability in both mathematical reasoning and safety assessment tasks.
title Rethinking the Reliability of Multi-agent System: A Perspective from Byzantine Fault Tolerance
topic Multiagent Systems
Artificial Intelligence
Computation and Language
url https://arxiv.org/abs/2511.10400