A Distributed Approach for Solving Systems of Nonlinear Equations

A. Mocanu, N. Tapus
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Abstract

Solving a system of nonlinear equations is a common operation in many practical applications such as analyzing physics experiments or running simulations of analog electronic circuits. Applications become more and more complex, both in terms of variables and number of involved equations, severely limiting the applicability of the sequential algorithms. As both the processing power and the available bandwidth in modern network increase, the distributing solution becomes more and more appealing. This paper presents a parallel algorithm for solving systems nonlinear of equations based on the Newton-Raphson method. The core of this algorithm is the Gaussian reduction. Our implementation attempts to minimize the overall amount of data to be transferred during both the Gauss pivoting operation and each Newton-Raphson iteration.
求解非线性方程组的一种分布式方法
在许多实际应用中,求解非线性方程组是一种常见的操作,例如分析物理实验或运行模拟电子电路的模拟。应用变得越来越复杂,无论是在变量方面还是在涉及方程的数量方面,都严重限制了序列算法的适用性。随着现代网络处理能力和可用带宽的不断提高,分布式解决方案越来越具有吸引力。本文提出了一种基于牛顿-拉夫逊方法求解系统非线性方程组的并行算法。该算法的核心是高斯约简。我们的实现尝试最小化在高斯旋转操作和每次牛顿-拉夫森迭代期间要传输的数据总量。
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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