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Auteurs principaux: Cheng, Chung-Kuan, Kahng, Andrew B., Lin, Bill, Wang, Yucheng, Yoon, Dooseok
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.13665
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author Cheng, Chung-Kuan
Kahng, Andrew B.
Lin, Bill
Wang, Yucheng
Yoon, Dooseok
author_facet Cheng, Chung-Kuan
Kahng, Andrew B.
Lin, Bill
Wang, Yucheng
Yoon, Dooseok
contents Advanced nodes decouple contacted poly pitch (CPP) and lower-metal pitch to improve routability. We present CPCell, an efficient standard-cell layout generation framework, to support arbitrary gear ratio (GR) and offset parameters through a fine-grained layered grid graph and constraint-programming-based placement-routing co-optimization. Layout quality is improved via Middle-of-Line routing, M0 pin enablement, pin accessibility constraints and a weighted multi-objective formulation that jointly optimizes cell layouts. To scale to netlists with up to 48 transistors, we incorporate acceleration techniques including transistor clustering, identical transistor partitioning, routing lower bound tightening and early termination strategies. Comprehensive cell-level and block-level studies are conducted to evaluate GR and offset choices, quantify the benefits of the proposed objectives and assess their impact on power, performance, area and IR-drop outcomes.
format Preprint
id arxiv_https___arxiv_org_abs_2603_13665
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle An Extended Study of Gear-Ratio-Aware Standard Cell Layout Generation for DTCO Exploration
Cheng, Chung-Kuan
Kahng, Andrew B.
Lin, Bill
Wang, Yucheng
Yoon, Dooseok
Hardware Architecture
Advanced nodes decouple contacted poly pitch (CPP) and lower-metal pitch to improve routability. We present CPCell, an efficient standard-cell layout generation framework, to support arbitrary gear ratio (GR) and offset parameters through a fine-grained layered grid graph and constraint-programming-based placement-routing co-optimization. Layout quality is improved via Middle-of-Line routing, M0 pin enablement, pin accessibility constraints and a weighted multi-objective formulation that jointly optimizes cell layouts. To scale to netlists with up to 48 transistors, we incorporate acceleration techniques including transistor clustering, identical transistor partitioning, routing lower bound tightening and early termination strategies. Comprehensive cell-level and block-level studies are conducted to evaluate GR and offset choices, quantify the benefits of the proposed objectives and assess their impact on power, performance, area and IR-drop outcomes.
title An Extended Study of Gear-Ratio-Aware Standard Cell Layout Generation for DTCO Exploration
topic Hardware Architecture
url https://arxiv.org/abs/2603.13665