Related papers: Understanding Agent Scaling in LLM-Based Multi-Agent Systems via Diversity

Understanding Agent Scaling in LLM-Based Multi-Agent Systems via Diversity

URL: http://arxiv.org/abs/2602.03794v1
Date: Tue, 03 Feb 2026 17:58:10 GMT
Title: Understanding Agent Scaling in LLM-Based Multi-Agent Systems via Diversity
Authors: Yingxuan Yang, Chengrui Qu, Muning Wen, Laixi Shi, Ying Wen, Weinan Zhang, Adam Wierman, Shangding Gu,
Abstract summary: We present an information-theoretic framework showing that MAS performance is bounded by the intrinsic task uncertainty, not by agent count.<n>We derive architecture-agnostic bounds demonstrating that improvements depend on how many effective channels the system accesses.<n>Our results provide principled guidelines for building efficient and robust MAS through diversity-aware design.
Score: 48.409368133277525
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: LLM-based multi-agent systems (MAS) have emerged as a promising approach to tackle complex tasks that are difficult for individual LLMs. A natural strategy is to scale performance by increasing the number of agents; however, we find that such scaling exhibits strong diminishing returns in homogeneous settings, while introducing heterogeneity (e.g., different models, prompts, or tools) continues to yield substantial gains. This raises a fundamental question: what limits scaling, and why does diversity help? We present an information-theoretic framework showing that MAS performance is bounded by the intrinsic task uncertainty, not by agent count. We derive architecture-agnostic bounds demonstrating that improvements depend on how many effective channels the system accesses. Homogeneous agents saturate early because their outputs are strongly correlated, whereas heterogeneous agents contribute complementary evidence. We further introduce $K^*$, an effective channel count that quantifies the number of effective channels without ground-truth labels. Empirically, we show that heterogeneous configurations consistently outperform homogeneous scaling: 2 diverse agents can match or exceed the performance of 16 homogeneous agents. Our results provide principled guidelines for building efficient and robust MAS through diversity-aware design. Code and Dataset are available at the link: https://github.com/SafeRL-Lab/Agent-Scaling.

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