Scalable parallel implementation of shooting method for large-scale dynamical systems. Application to bridge components
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摘要
The mathematical models applied to real-life engineering structures result into large-scale dynamical systems. The efficient computation of their dynamical characteristics requires the usage of advanced numerical methods with parallel algorithms. The shooting method, in combination with a continuation method, presents a powerful tool for analyzing and investigating the dynamical characteristics of such systems. The efficiency and scalability of the shooting method are analyzed in the current paper for linear and nonlinear equations. Its applicability to large-scale systems is demonstrated by structural component of bridge discretized by three-dimensional finite elements.
论文关键词:Periodic response,Frequency-response function,Real-life structures,High-performance computing,Scalability
论文评审过程:Received 8 December 2014, Revised 28 March 2015, Available online 18 April 2015, Version of Record 8 September 2015.
论文官网地址:https://doi.org/10.1016/j.cam.2015.04.015