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Nonlinear Structural Response Using Adaptive Dynamic Relaxation on a Massively-Parallel-Processing System

机译：大规模并行处理系统中自适应动态松弛的非线性结构响应

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A parallel adaptive dynamic relaxation (ADR) algorithm has been developed fornonlinear structural analysis. This algorithm has minimal memory requirements, is easily parallelizable and scalable to many processors, and is generally very reliable and efficient for highly nonlinear problems. Performance evaluations on single-processor computers have shown that the ADR algorithm is reliable and highly vectorizable, and that it is competitive with direct solution methods for the highly nonlinear problems considered. The present algorithm is implemented on the 512-processor Intel Touchstone DELTA system at Caltech, and it is designed to minimize the extent and frequency of interprocessor communication. The algorithm has been used to solve for the nonlinear static response of two and three dimensional hyperelastic systems involving contact. Impressive relative speedups have been achieved and demonstrate the high scalability of the ADR algorithm. For the class of problems addressed, the ADR algorithm represents a very promising approach for parallel-vector processing.

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Oakley, D. R.; Knight, N. F.;
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年度 1994
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总页数 43
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Massively parallel processors; Parallel processing (Computers); Structuralanalysis; Vector processing (Computers); Algorithms; Elastic bodies; Interprocessor communication; Nonlinearity;

机译：大规模并行处理器;并行处理（计算机）;结构分析;矢量处理（计算机）;算法;弹性体;处理器间通信;非线性;

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专利

1. NON-LINEAR STRUCTURAL RESPONSE USING ADAPTIVE DYNAMIC RELAXATION ON A MASSIVELY PARALLEL-PROCESSING SYSTEM [J] . David R. Oakley, Norman F. Knight Jr International Journal for Numerical Methods in Engineering . 1996,第2期

机译：大规模并行处理系统中基于自适应动态松弛的非线性结构响应
2. Nonlinear structural dynamical system identification using adaptive particle filters [J] . Namdeo V, Manohar CS Journal of Sound and Vibration . 2007,第3a5期

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3. Microscopic insight into the pump-probe relaxation dynamics of superconductors: Model study of MgB2 relaxation within nonlinear response theory [J] . Banacky Pavol, Szocs Vojtech Physica status solidi, B. Basic research . 2016,第5期

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4. Localisation, characterisation and Identification of localised nonlinearity in structural dynamics using base excitation frequency response functions [C] . J. Taghipour, H. Haddad Khodaparast, M.I. Friswell, International Conference on Uncertainty in Structural Dynamics . 2019

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5. Analytical and numerical investigation of structural damage detection and high-dimensional dynamic response of nonlinear and time-varying systems. [D] . Xu, Guangyao. 2007

机译：非线性和时变系统的结构损伤检测和高维动力响应的分析和数值研究。
6. An adaptive Dynamic Relaxation method for solving nonlinear finite element problems. Application to brain shift estimation [O] . Grand Roman Joldes, Adam Wittek, Karol Miller -1

机译：一种求解非线性有限元问题的自适应动态松弛方法。应用于脑班估计
7. Nonlinear structural response using adaptive dynamic relaxation on a massively-parallel-processing system [O] . Oakley David R., Knight Norman F. Jr. 1994

机译：在大规模并行处理系统上使用自适应动态松弛的非线性结构响应

Nonlinear Structural Response Using Adaptive Dynamic Relaxation on a Massively-Parallel-Processing System

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