English

Fat-Cat: Document-Driven Metacognitive Multi-Agent System for Complex Reasoning

Machine Learning 2026-02-10 v2

Abstract

The effectiveness of LLM-based agents is often limited not by model capacity alone, but by how efficiently contextual information is utilized at runtime. Existing agent frameworks rely on rigid, syntax-heavy state representations such as nested JSON, which require models to devote a substantial portion of their limited attention to syntactic processing rather than semantic reasoning. In this paper, we propose Fat-Cat, a document-driven agent architecture that improves the signal-to-noise ratio of state management. By integrating three key components: (1) a Semantic File System that represents agent state as Markdown documents aligned with common pre-training corpora, (2) a Textual Strategy Evolution module that accumulates task-solving knowledge without parameter updates, and (3) a Closed-Loop Watcher that monitors reasoning trajectories to reduce hallucinations. Extensive reasoning, retrieval, and coding benchmarks, Fat-Cat consistently improves agent performance. It enables the Kimi-k2 model to outperform the proprietary GPT-4o baseline on HotPotQA. Replacing the document-based state with JSON leads to performance drop, while empirically validating the critical necessity of document-driven state modeling over rigid syntax. The code is available at https://github.com/answeryt/Fat-Cat.

Keywords

Cite

@article{arxiv.2602.02206,
  title  = {Fat-Cat: Document-Driven Metacognitive Multi-Agent System for Complex Reasoning},
  author = {Tong Yang and Yemin Wang and Chaoning Zhang and Aming Wu},
  journal= {arXiv preprint arXiv:2602.02206},
  year   = {2026}
}

Comments

This submission is withdrawn due to errors in the manuscript content and inaccuracies in the author information. The authors plan to correct these issues and may submit a revised version in the future

R2 v1 2026-07-01T09:32:02.176Z