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Main Authors: Luo, Zizhang, Cui, Fan, Zhou, Kexing, Guo, Runlin, Xia, Mile, Hou, Hongyuan, Liang, Yun
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.20090
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author Luo, Zizhang
Cui, Fan
Zhou, Kexing
Guo, Runlin
Xia, Mile
Hou, Hongyuan
Liang, Yun
author_facet Luo, Zizhang
Cui, Fan
Zhou, Kexing
Guo, Runlin
Xia, Mile
Hou, Hongyuan
Liang, Yun
contents Repairing RTL bugs is crucial for hardware design and verification. Traditional automatic program repair (APR) methods define dedicated search spaces to locate and fix bugs with program synthesis. However, they heavily rely on fixed templates and can only deal with limited bugs. As an alternative, Large Language Models with the ability to understand code semantics can be explored for RTL repair. However, they suffer from unreliable outcomes due to inherent randomness and long input contexts of RTL code and waveform. To address these challenges, we propose R3A, an LLM-based automatic RTL program repair framework upon the basic model to improve reliability. R3A proposes the stochastic Tree-Of-Thoughts method to control a patch generation agent to explore a validated solution for the bug. The algorithm samples search states according to a heuristic function to balance between exploration and exploitation for a reliable outcome. Besides, R3A proposes a multi-agent fault localization method to find fault candidates as the starting points for the patch generation agent, further increasing the reliability. Experiments show R3A can fix 90.6% of bugs in the RTL-repair dataset within a given time limit, which covers 45% more bugs than traditional methods and other LLM-based approaches, while achieving an 86.7% pass@5 rate on average, showing a high reliability.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20090
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle R3A: Reliable RTL Repair Framework with Multi-Agent Fault Localization and Stochastic Tree-of-Thoughts Patch Generation
Luo, Zizhang
Cui, Fan
Zhou, Kexing
Guo, Runlin
Xia, Mile
Hou, Hongyuan
Liang, Yun
Hardware Architecture
Artificial Intelligence
B.5.3; I.2.2
Repairing RTL bugs is crucial for hardware design and verification. Traditional automatic program repair (APR) methods define dedicated search spaces to locate and fix bugs with program synthesis. However, they heavily rely on fixed templates and can only deal with limited bugs. As an alternative, Large Language Models with the ability to understand code semantics can be explored for RTL repair. However, they suffer from unreliable outcomes due to inherent randomness and long input contexts of RTL code and waveform. To address these challenges, we propose R3A, an LLM-based automatic RTL program repair framework upon the basic model to improve reliability. R3A proposes the stochastic Tree-Of-Thoughts method to control a patch generation agent to explore a validated solution for the bug. The algorithm samples search states according to a heuristic function to balance between exploration and exploitation for a reliable outcome. Besides, R3A proposes a multi-agent fault localization method to find fault candidates as the starting points for the patch generation agent, further increasing the reliability. Experiments show R3A can fix 90.6% of bugs in the RTL-repair dataset within a given time limit, which covers 45% more bugs than traditional methods and other LLM-based approaches, while achieving an 86.7% pass@5 rate on average, showing a high reliability.
title R3A: Reliable RTL Repair Framework with Multi-Agent Fault Localization and Stochastic Tree-of-Thoughts Patch Generation
topic Hardware Architecture
Artificial Intelligence
B.5.3; I.2.2
url https://arxiv.org/abs/2511.20090