Formulae for performance optimization and their applications to interconnect-driven floorplanning

Proceedings International Symposium on Quality Electronic Design Pub Date : 2002-08-07 DOI:10.1109/ISQED.2002.996798

N. Chang, Yao-Wen Chang, I. Jiang

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Abstract

As the process technology advances into the deep submicron era, interconnect plays a dominant role in determining circuit performance. Buffer insertion/sizing and wire sizing are the most effective and popular techniques to reduce interconnect delay and are traditionally applied to post-layout, optimization. As the SIA technology roadmap predicts, however, the number of interconnections among different blocks and that of buffers inserted in a chip for performance optimization will grow dramatically. It is obviously infeasible to insert/size hundreds of thousands buffers or wires during the post-layout stage when most routing regions are occupied. Therefore, it is critical to incorporate buffer-block and., wire-size planning into floorplanning to ensure timing closure and design convergence. In this paper, we first derive continuous buffer insertion/sizing and wire sizing formulae for performance optimization under a more accurate wire model, and then apply the formulate to interconnect-driven floorplanning that considers not only the buffer-block planning but also wire-size planning.

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性能优化公式及其在互联驱动地板规划中的应用

随着工艺技术进入深亚微米时代，互连在决定电路性能方面起着主导作用。缓冲器插入/尺寸调整和导线尺寸调整是减少互连延迟的最有效和最流行的技术，传统上应用于布局后优化。然而，正如SIA技术路线图所预测的那样，不同块之间的互连数量以及为性能优化而插入芯片的缓冲区数量将急剧增长。当大多数布线区域被占用时，在布局后阶段插入/调整数十万个缓冲区或导线显然是不可行的。因此，将缓冲块和。，线材尺寸规划纳入平面规划，确保定时闭合与设计衔接。在本文中，我们首先导出了在更精确的导线模型下进行性能优化的连续缓冲区插入/尺寸和导线尺寸公式，然后将该公式应用于互连驱动的地板规划，该规划不仅考虑了缓冲块规划，而且考虑了导线尺寸规划。

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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Proceedings International Symposium on Quality Electronic Design

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