Single-Node SOR Method for Statistic Analysis of Power/Ground Networks

Luo Zu-ying; Pan Yue-dou; Xu Xuan-chuan

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Single-Node SOR Method for Statistic Analysis of Power/Ground Networks

更新时间：2025-07-16

- Single-Node SOR Method for Statistic Analysis of Power/Ground Networks
- Acta Electronica Sinica Vol. 35, Issue 11, Pages: 2043-2049(2007)
- 作者机构：
  
  1. 北京师范大学信息科学与技术学院,北京,100875
  2. 北京科技大学信息科学与技术学院,北京,100082
  3. 北京师范大学信息科学与技术学院北京,100875
  4. 北京科技大学信息科学与技术学院北京,100082
- 作者简介：
- 基金信息：
- DOI：
  CLC： TP391.9
- Published：2007
- 稿件说明：
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Luo Zu-ying, Pan Yue-dou, Xu Xuan-chuan. Single-Node SOR Method for Statistic Analysis of Power/Ground Networks[J]. Acta Electronica Sinica, 2007, 35(11): 2043-2049.
DOI：

Luo Zu-ying, Pan Yue-dou, Xu Xuan-chuan. Single-Node SOR Method for Statistic Analysis of Power/Ground Networks[J]. Acta Electronica Sinica, 2007, 35(11): 2043-2049. DOI：

摘要

随着集成电路工艺进入纳米工艺时代

VLSI规模在增大的同时

还伴随着显著的工艺参数变化

使得电源线/地线网络(P/G网)分析从确定式分析算法转变为统计式分析算法

迫切需要能够降低算法复杂度的局部分析算法.为了计算设计者感兴趣的P/G网少数IR电压降比较大的问题节点电压变化

必须分别计算出这些点的相关电阻向量

本文提出了一种单点SOR (Successive Over Relaxation:连续过松弛-超级松弛)的统计分析方法(SN-SOR).与传统的全局SOR方法相比

SN-SOR方法有如下三个优点:(1)局部松弛.由于计算一个问题节点

q的相关电阻向量

必须仅在q

点加一个激励

所以SN-SOR方法不是采用全局电路节点的顺序松弛方法

而是采用从

点不断向周围节点进行松弛的波状松弛方法

当某些节点的IR电压降小于一个极小的设定值时(即相关电阻足够小)

这些节点就不再向外进行松弛计算

因此SN-SOR方法具有局部松弛的特性.(2)高效.与传统的全局SOR方法相比

SN-SOR方法不仅松弛点非常少

而且松弛次数也有所减少.(3)低空间复杂度.当计算出

点相关电阻向量后

SN-SOR方法不是将所有相关电阻都存起来

而是只将强相关电阻存起来

对于大多数的弱相关电阻

仅将少数代表节点上的弱相关电阻存起来

所以本文方法的空间复杂度比较低.大量的实验数据表明

与全局SOR求解方法相比

SN-SOR方法在保持较高精度(误差小于0.38%)的前提下

速度可以提高20倍.

Abstract

With technology scaling into nanometer regime

VLSI chips become much more complex and suffer from rampant process variations.Therefore

statistical methods are replacing deterministic counterparts for power/ground(P/G) grid analysis and efficient local analysis methods are badly needed to reduce the analysis complexity.A novel single-node Successive Over Relaxation (SN-SOR) method is proposed to efficiently solve correlated resistor vectors a

nd then to directly compute voltage variations for question nodes of large IR droop.Compared with traditional global SOR methods

the SN-SOR method shows following advantages.First one is locality.Because only one stimuli is located at the question node

to compute the correlated resistor vector

SN-SOR relaxes nodes from

to its surround nodes as wave transmission and the wave stops at some nodes whose IR droop is less than one assigned little value.Second one is efficiency.SN-SOR only relaxes small parts of nodes in P/G circuits but also needs slightly less relaxation reiterations.Third one is low memory complexity.Among

SN-SOR only needs some strong correlated resistors and less weak resistors of typical nodes to compute the voltage variation.Experiments show SN-SOR is 20 times faster than global SOR methods with only 0.38% accuracy loss.

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