Automatic Scaling Mechanism for LLM Multi-Agent Systems: Peristaltic Channel Architecture with Autonomous Decentralization
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Abstract
This paper presents the Automatic Scaling Mechanism (ASM) for LLM multi-agent systems, deployed across two Windows PCs connected via a NAS-based shared bus. The architecture rests on three principles inherited from automotive E/E system design: autonomous decentralization, channel abstraction (hourglass waist), and peristaltic synchronization. Production measurements show 100 consecutive synchronization cycles with zero errors (mean 2.24s, σ=0.28s). Per-stage instrumentation reveals that local directory scanning (0.82s)—not NAS delivery (0.73s)—is the bottleneck. An unplanned inter-hub cooperation experiment demonstrated autonomous task delegation, package safety verification, tool modification, and result…
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Topics
Keywords
- Synchronization (alternating current)
- Channel (broadcasting)
- Abstraction
- Task (project management)
- Scaling
- Mechanism (biology)
- Architecture
- Instrumentation (computer programming)
UN Sustainable Development Goals
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