在粒子加速器上实现代理人工智能

arXiv - PHYS - Accelerator Physics Pub Date : 2024-09-10 DOI:arxiv-2409.06336

Antonin Sulc, Thorsten Hellert, Raimund Kammering, Hayden Houscher, Jason St. John

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摘要

随着粒子加速器的复杂性不断增加，传统的控制方法在实现最佳性能方面面临着越来越大的挑战。本文设想了一种范式转变：一种用于加速器控制的去中心化多代理框架，由大型语言模型（LLM）驱动，分布在自主代理之间。我们提出了一个自我完善的去中心化系统，由智能代理处理高级任务和通信，每个代理专门控制单个加速器组件。这种方法提出了一些问题：人工智能在粒子加速器中的未来应用是什么？我们如何才能实现粒子加速器这样的自主复杂系统，让代理通过经验和人类反馈逐步改进？在标注运行数据和提供专家指导时，集成人在回路中的组件会产生什么影响？我们展示了两个例子，证明了这种架构的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Towards Agentic AI on Particle Accelerators

As particle accelerators grow in complexity, traditional control methods face increasing challenges in achieving optimal performance. This paper envisions a paradigm shift: a decentralized multi-agent framework for accelerator control, powered by Large Language Models (LLMs) and distributed among autonomous agents. We present a proposition of a self-improving decentralized system where intelligent agents handle high-level tasks and communication and each agent is specialized control individual accelerator components. This approach raises some questions: What are the future applications of AI in particle accelerators? How can we implement an autonomous complex system such as a particle accelerator where agents gradually improve through experience and human feedback? What are the implications of integrating a human-in-the-loop component for labeling operational data and providing expert guidance? We show two examples, where we demonstrate viability of such architecture.

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arXiv - PHYS - Accelerator Physics

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