Emerging Challenges in Physical Design Automation for Sub-5nm Technology Nodes
Abstract
The continuous downscaling of semiconductor technology nodes has fueled the evolution of high-performance, energy-efficient, and compact electronic systems. However, as the industry transitions toward sub-5nm technology nodes, physical design automation faces unprecedented challenges. This research paper investigates the emerging difficulties in sub-5nm physical design automation, including variability, power integrity; interconnect bottlenecks, manufacturability, and reliability. The analysis explores new paradigms such as machine learning-driven EDA, novel placement and routing strategies, design-technology co-optimization (DTCO), and multi patterning lithography. The paper concludes by highlighting prospective solutions and research directions to address the growing complexity in sub 5nm design.
KEYWORDS: Sub-5nm, Physical Design Automation, VLSI, Power Integrity, DTCO, EDA Tools, Interconnect Challenges
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