高级时序电平敏感顺序电路

Q3 Arts and Humanities Giornale di Storia Costituzionale Pub Date : 2004-12-13 DOI:10.1109/ICECS.2004.1399753

B. Taskin, I. Kourtev

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引用次数: 1

摘要

本文讨论了时钟倾斜调度下多相电平敏感同步电路的高级时序分析(Kourtev, I.S.和Friedman, e.g.，“通过时钟倾斜调度的优化”，Kluwer学术出版社，2000)。先前为单相时钟方案提供的时序分析框架(Taskin, B.和Kourtev, i.s.， Proc. 15 IEEE Int.)。ASIC/SOC Conf. p.358- 62,2002)被增强以适应多相时钟方案。特别地，时序分析框架被用于制定多相电平敏感电路的时钟周期最小化问题。采用改进的Taskin和Kourtev的大M方法对时钟周期最小化问题的公式进行线性化，并在ISCAS’89基准电路上进行了实验。在单相电平敏感电路中，通过同时应用非零时钟偏差调度和时间借用，可以比传统的零时钟偏差、边缘触发电路提高63%。在多相时钟方案下，相同的电路拓扑结构可实现高达62%的可比改进。

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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Advanced timing of level-sensitive sequential circuits

The paper addresses the advanced timing analysis of multiphase level-sensitive synchronous circuits under clock skew scheduling (Kourtev, I.S. and Friedman, E.G., "Optimization Through Clock Skew Scheduling", Kluwer Academic Publishers, 2000). The timing analysis framework previously offered for a single-phase clocking scheme (Taskin, B. and Kourtev, I.S., Proc. 15th IEEE Int. ASIC/SOC Conf. p.358-62, 2002) is enhanced to accommodate a multiphase clocking scheme. In particular, the timing analysis framework is used to formulate the clock period minimization problem of multiphase level-sensitive circuits. The modified big M method of Taskin and Kourtev is used to linearize the formulation of the clock period minimization problem and experiments are performed on the ISCAS'89 benchmark circuits. In single-phase level-sensitive circuits, up to 63% improvements over conventional zero clock skew, edge-triggered circuits are achieved through the simultaneous application of non-zero clock skew scheduling and time borrowing. Comparable improvements of up to 62% are achieved for the same circuit topologies under a multiphase clocking scheme.

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