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Autori principali: Bao, Zhixuan, Lin, Zhuoyi, Wang, Jiageng, Hu, Jinhai, Gao, Yuan, Wu, Yaoxin, Li, Xiaoli, Xu, Xun
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2603.23910
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author Bao, Zhixuan
Lin, Zhuoyi
Wang, Jiageng
Hu, Jinhai
Gao, Yuan
Wu, Yaoxin
Li, Xiaoli
Xu, Xun
author_facet Bao, Zhixuan
Lin, Zhuoyi
Wang, Jiageng
Hu, Jinhai
Gao, Yuan
Wu, Yaoxin
Li, Xiaoli
Xu, Xun
contents Recent advances in large language models (LLMs) suggest strong potential for automating analog circuit design. Yet most LLM-based approaches rely on a single-model loop of generation, diagnosis, and correction, which favors succinct summaries over domain-specific insight and suffers from context attrition that erases critical technical details. To address these limitations, we propose AnalogAgent, a training-free agentic framework that integrates an LLM-based multi-agent system (MAS) with self-evolving memory (SEM) for analog circuit design automation. AnalogAgent coordinates a Code Generator, Design Optimizer, and Knowledge Curator to distill execution feedback into an adaptive playbook in SEM and retrieve targeted guidance for subsequent generation, enabling cross-task transfer without additional expert feedback, databases, or libraries. Across established benchmarks, AnalogAgent achieves 92% Pass@1 with Gemini and 97.4% Pass@1 with GPT-5. Moreover, with compact models (e.g., Qwen-8B), it yields a +48.8% average Pass@1 gain across tasks and reaches 72.1% Pass@1 overall, indicating that AnalogAgent substantially strengthens open-weight models for high-quality analog circuit design automation.
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publishDate 2026
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spellingShingle AnalogAgent: Self-Improving Analog Circuit Design Automation with LLM Agents
Bao, Zhixuan
Lin, Zhuoyi
Wang, Jiageng
Hu, Jinhai
Gao, Yuan
Wu, Yaoxin
Li, Xiaoli
Xu, Xun
Artificial Intelligence
Recent advances in large language models (LLMs) suggest strong potential for automating analog circuit design. Yet most LLM-based approaches rely on a single-model loop of generation, diagnosis, and correction, which favors succinct summaries over domain-specific insight and suffers from context attrition that erases critical technical details. To address these limitations, we propose AnalogAgent, a training-free agentic framework that integrates an LLM-based multi-agent system (MAS) with self-evolving memory (SEM) for analog circuit design automation. AnalogAgent coordinates a Code Generator, Design Optimizer, and Knowledge Curator to distill execution feedback into an adaptive playbook in SEM and retrieve targeted guidance for subsequent generation, enabling cross-task transfer without additional expert feedback, databases, or libraries. Across established benchmarks, AnalogAgent achieves 92% Pass@1 with Gemini and 97.4% Pass@1 with GPT-5. Moreover, with compact models (e.g., Qwen-8B), it yields a +48.8% average Pass@1 gain across tasks and reaches 72.1% Pass@1 overall, indicating that AnalogAgent substantially strengthens open-weight models for high-quality analog circuit design automation.
title AnalogAgent: Self-Improving Analog Circuit Design Automation with LLM Agents
topic Artificial Intelligence
url https://arxiv.org/abs/2603.23910