Efficient Steady-State Analysis Based on Matrix-Free Krylov-Subspace Methods

32nd Design Automation Conference Pub Date : 1900-01-01 DOI:10.1145/217474.217574
R. Telichevesky, K. Kundert, Jacob K. White
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引用次数: 156

Abstract

Gaussian-elimination based shooting-Newton methods, a commonly used approach for computing steady-state solutions, grow in computational complexity like N/sup 3/, where N is the number of circuit equations. Just using iterative methods to solve the shooting-Newton equations results in an algorithm which is still order N/sup 2/ because of the cost of calculating the dense sensitivity matrix. Below, a matrix-free Krylov-subspace approach is presented, and the method is shown to reduce shooting-Newton computational complexity to that of ordinary transient analysis. Results from several examples are given to demonstrate that the matrix-free approach is more than ten times faster than using iterative methods alone for circuits with as few as 400 equations.
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基于无矩阵krylov -子空间方法的高效稳态分析
基于高斯消去的射击-牛顿方法是一种常用的计算稳态解的方法,其计算复杂度像N/sup 3/那样增长,其中N是电路方程的数量。仅用迭代法求解射击-牛顿方程,由于计算密集灵敏度矩阵的开销,算法仍然是N/sup 2/阶。下面,提出了一种无矩阵的krylov -子空间方法,并证明该方法可以将射击牛顿计算复杂度降低到普通瞬态分析的计算复杂度。几个例子的结果表明,对于只有400个方程的电路,无矩阵方法比单独使用迭代方法快十倍以上。
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32nd Design Automation Conference
32nd Design Automation Conference
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