非树木路由

Proceedings of European Design and Test Conference EDAC-ETC-EUROASIC Pub Date : 1994-02-28 DOI:10.1109/EDTC.1994.326840

B. A. McCoy, G. Robins

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引用次数: 32

摘要

现有路由方法的隐含前提是路由拓扑必须对应于树(即它不包含循环)。在本文中，我们研究了放弃这个基本公理的后果，而是允许对应于任意图的路由拓扑(即允许循环的拓扑)。我们表明，在现有的路由树中添加额外的导线通常可以通过利用导线电容和电阻之间的权衡来显着改善信号传播延迟，并且我们提出了一种基于这种现象的新路由算法。使用SPICE来确定我们方法的有效性，我们获得了显着的结果:例如，在现有的斯坦纳路由上明智地添加一些额外的导线，根据净尺寸和技术参数，可以将信号传播延迟平均减少高达62%，并且总长度增加相对适度。最后，我们观察到非树路由也显著降低了信号倾斜

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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Non-tree routing

An implicit premise of existing routing methods is that the routing topology must correspond to a tree (i.e. it does not contain cycles). In this paper we investigate the consequences of abandoning this basic axiom, and instead allow routing topologies that correspond to arbitrary graphs (i.e. where cycles are admissible). We show that adding extra wires to an existing routing tree can often significantly improve signal propagation delay by exploiting a tradeoff between wire capacitance and resistance, and we propose a new routing algorithm based on this phenomenon. Using SPICE to determine the efficacy of our methods, we obtain dramatic results: for example, the judicious addition of a few extra wires to an existing Steiner routing reduces the signal propagation delay by an average of up to 62%, with relatively modest total wirelength increase, depending on net size and the technology parameters. Finally, we observe that non-tree routing also significantly reduces signal skew.<>

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Proceedings of European Design and Test Conference EDAC-ETC-EUROASIC

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