Abstract

Modern printed circuit board (PCB) design for high-performance computing systems — including server-grade processors, graphics processing units, and AI accelerators — demands increasingly rigorous layout constraints. Traditional constraint management systems rely on static rule sets, manual configuration, and repetitive engineer oversight, all of which introduce bottlenecks and errors at scale. This article presents an AI-based PCB Layout Constraint Manager (AI-PLCM), a system developed at Advanced Micro Devices, Inc. (AMD) to intelligently automate the generation, validation, and optimization of PCB layout constraints. The proposed system leverages machine learning models trained on historical board designs, natural language processing for constraint specification, and graph-neural-network-based routing analysis to deliver real-time constraint checking and adaptive recommendations. Results from deployment across multiple AMD product lines demonstrate a 47% reduction in design rule violations at tape-out, a 31% improvement in first-pass layout success rate, and significant reductions in engineering review cycle time. This work underscores the transformative potential of AI integration in electronic design automation (EDA) workflows.