通过门级延迟插入实现半同步电路时钟周期最小化

Proceedings of the ASP-DAC '99 Asia and South Pacific Design Automation Conference 1999 (Cat. No.99EX198) Pub Date : 1999-01-18 DOI:10.1109/ASPDAC.1999.759775

T. Yoda, A. Takahashi, Y. Kajitani

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引用次数: 14

摘要

半同步电路是一种电路，其中每个寄存器都由时钟周期性地滴答，但不一定同时滴答。半同步电路的一个特点是，寄存器之间的最小延迟可能对电路的时钟周期至关重要。本文讨论了一种延迟插入方法，使半同步电路的速度更快。电路中各周期的最大延迟寄存器比给出了时钟周期的下限。在假定电路中每个元件的延迟是唯一的前提下，我们通过所提出的门级延迟插入方法在半同步框架中实现了这一界限。

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Clock period minimization of semi-synchronous circuits by gate-level delay insertion

A semi-synchronous circuit is a circuit in which every register is ticked by a clock periodically, but not necessarily simultaneously. A feature of semi-synchronous circuits is that the minimum delay between registers may be critical with respect to the clock period of the circuit. In this paper, we discuss a delay insertion method which makes such a semi-synchronous circuit faster. The maximum delay-to-register ratio of the cycles on the circuit gives a lower bound of the clock period. We show that this bound is achieved in the semi-synchronous framework by the proposed gate-level delay insertion method on the assumption that the delay of each element on the circuit is unique.

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Proceedings of the ASP-DAC '99 Asia and South Pacific Design Automation Conference 1999 (Cat. No.99EX198)

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