Aethon: A Reference-Based Replication Primitive for Constant-Time Instantiation of Stateful AI Agents
Aethon introduces a new reference-based replication primitive that optimizes performance and memory for stateful AI agents, enabling near-instant instantiation of complex multi-agent systems.
Computer Science > Artificial Intelligence
Title:Aethon: A Reference-Based Replication Primitive for Constant-Time Instantiation of Stateful AI Agents
View PDF HTML (experimental)Abstract:The transition from stateless model inference to stateful agentic execution is reshaping the systems assumptions underlying modern AI infrastructure. While large language models have made persistent, tool-using, and collaborative agents technically viable, existing runtime architectures remain constrained by materialization-heavy instantiation models that impose significant latency and memory overhead.
This paper introduces Aethon, a reference-based replication primitive for near-constant-time instantiation of stateful AI agents. Rather than reconstructing agents as fully materialized objects, Aethon represents each instance as a compositional view over stable definitions, layered memory, and local contextual overlays. By shifting instantiation from duplication to reference, Aethon decouples creation cost from inherited structure.
We present the conceptual framework, system architecture, and memory model underlying Aethon, including layered inheritance and copy-on-write semantics. We analyze its implications for complexity, scalability, multi-agent orchestration, and enterprise governance. We argue that reference-based instantiation is not merely an optimization, but a more appropriate systems abstraction for production-scale agentic software.
Aethon points toward a new class of AI infrastructure in which agents become lightweight, composable execution identities that can be spawned, specialized, and governed at scale.
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Source: arXiv cs.AI Recent
