Fast path-based timing analysis for CPPR

2014 IEEE/ACM International Conference on Computer-Aided Design (ICCAD) Pub Date : 2014-11-03 DOI:10.5555/2691365.2691487

Tsung-Wei Huang, Pei-Ci Wu, Martin D. F. Wong

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引用次数: 8

Abstract

Common-path-pessimism removal (CPPR) is a pivotal step to achieve accurate timing signoff. Unnecessary pessimism might arise quality-of-result (QoR) concerns such as reporting worse violations than the true timing properties owned by the physical circuit. In other words, signoff timing report will conclude a lower clock frequency at which circuits can operate than actual silicon implementations. Therefore, we introduce in this paper a fast path-based timing analysis for CPPR. Unlike existing approaches which are dominated by explicit path search, we perform implicit path representation which yields significantly smaller search space and faster runtime. Specifically, our algorithm is superior in both space and time saving, from which the memory storage and important timing quantities are available in constant space and constant time per path during the search. Experimental results on industrial benchmarks released from TAU 2014 timing analysis contest have shown that our algorithm won the first place and achieved the best result in terms of accuracy and runtime over all participating teams.

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基于路径的CPPR快速时序分析

消除共同路径悲观情绪(CPPR)是实现准确定时信号的关键步骤。不必要的悲观情绪可能会引起对结果质量(QoR)的担忧，例如报告比物理电路拥有的真实定时属性更严重的违规行为。换句话说，签署时序报告将得出一个较低的时钟频率，在这个频率下电路可以比实际的硅实现工作。因此，本文提出了一种快速的基于路径的CPPR时序分析方法。与现有的由显式路径搜索主导的方法不同，我们执行隐式路径表示，从而产生更小的搜索空间和更快的运行时间。具体来说，我们的算法在节省空间和时间方面都有优势，在搜索过程中，每条路径在恒定的空间和恒定的时间内都可以获得内存存储和重要的时序量。在TAU 2014时序分析大赛发布的工业基准上的实验结果表明，我们的算法在所有参赛团队中获得了第一名，并且在准确率和运行时间方面取得了最好的成绩。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2014 IEEE/ACM International Conference on Computer-Aided Design (ICCAD)

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