为定制芯片设计的定时驱动的全局路由器

1990 IEEE International Conference on Computer-Aided Design. Digest of Technical Papers Pub Date : 1990-11-11 DOI:10.1109/ICCAD.1990.129837

S. Prasitjutrakul, W. Kubitz

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引用次数: 67

摘要

针对定制芯片设计，提出了一种以时延最小最大化为目标的时序驱动全局路由器。在布线过程中，互连的电阻和电容、输入栅极电容和输出驱动器电阻被用来近似互连延迟。路由器在路由过程中增量地更新从前一步获得的信号的每个接收引脚的延迟。每个接收引脚的最大允许延迟(来自时序分析仪)以及计算的互连延迟用于指导最大延迟松弛路由的搜索过程。结果表明，当互连电阻与输出驱动电阻相当时，最小化总网络长度并不总是等同于最小化多终端网络的延迟。实验结果表明，所提出的算法可以产生达到目标的全局路由

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A timing-driven global router for custom chip design

A timing-driven global router is presented for custom chip design, whose objective is maximizing the minimum delay slack. Resistances and capacitances of interconnections, input gate capacitances and output driver resistance are used to approximate the interconnection delays during the routing. The router incrementally updates the delay at each sink pin of the signal obtained from the previous step during the routing. The maximum allowable delay at each sink pin (from a timing analyzer) along with the computed interconnection delays is used to guide the search process for the maximum-delay-slack route. It is shown that when the interconnection resistance is comparable to the output-driver resistance, minimizing the total net length is not always equivalent to minimizing the delay for a multiterminal net. The algorithm presented is experimentally shown to produce global routes achieving the objective.<>

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来源期刊

1990 IEEE International Conference on Computer-Aided Design. Digest of Technical Papers

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