Incremental Lagrangian Relaxation Based Discrete Gate Sizing and Threshold Voltage Assignment

Author:

Mangiras Dimitrios,Dimitrakopoulos GiorgosORCID

Abstract

Timing closure remains one of the most critical challenges of a physical synthesis flow, especially when the design operates under multiple operating conditions. Even if timing is almost closed at the end of the flow, last-mile placement and routing congestion optimizations may introduce new timing violations. Correcting such violations needs minimally disruptive techniques such as threshold voltage reassignment and gate sizing that affect only marginally the placement and routing of the almost finalized design. To this end, we transform a powerful Lagrangian-relaxation-based optimizer, used for global timing optimization early in the design flow, into a practical incremental timing optimizer that corrects small timing violations with fast runtime and without increasing the area/power of the design. The proposed approach was applied to already optimized designs of the ISPD 2013 benchmarks assuming that they experience new timing violations due to local wire rerouting. Experimental results show that in single corner designs, timing is improved by more than 36% on average, using 45% less runtime. Correspondingly, in a multicorner context, timing is improved by 39% when compared to the fully-fledged version of the timing optimizer.

Funder

Alexander S. Onassis Foundation

Publisher

MDPI AG

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Cited by 2 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Task-Based Parallel Programming for Gate Sizing;IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems;2023-04

2. MOCAST 2021;Technologies;2022-07-20

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