功率和密度感知缓冲器插入

2008 IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT) Pub Date : 2008-04-23 DOI:10.1109/VDAT.2008.4542469

Yi-Ju Ho, Wai-Kei Mak

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引用次数: 3

摘要

在现代SOC设计中，需要将大量缓冲区插入到大量网络中以提高性能和/或信号完整性。这些缓冲器增加了功耗并占用了硅面积。因此，避免过度缓冲非常重要。缓冲空间在布局的密集区域中更受限制。因此，也有必要在更密集的区域保留更优质的缓冲空间，直到它们在物理合成过程中绝对需要。提出了一种在给定时间约束下兼顾功耗和设计密度的缓冲器插入算法。我们提出了这个多目标问题的一个公式和一个利用拉格朗日松弛技术的启发式求解器。实验表明，该方法在实现低功耗的同时，显著提高了整体设计密度。

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Power and density-aware buffer insertion

In modern SOC design, a large number of buffers need to be inserted to a large number of nets to improve performance and/or signal integrity. These buffers increase the power consumption and occupy silicon area. So it is important to avoid over-buffering. Buffering spaces are more limited in the denser regions of a layout. Thus it is also necessary to reserve the more premium buffering spaces in the denser regions until they are absolutely needed during physical synthesis. This paper presents a buffer insertion algorithm with consideration of both power dissipation and design density under a given timing constraint. We propose a formulation for this multiobjective problem and a heuristic solver using Lagrangian relaxation technique. Experiment shows that our method can significantly improve the overall design density while achieving low power.

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来源期刊

2008 IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT)

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