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Parallel computing of wheel-rail contact

journal contribution
posted on 2020-08-25, 00:00 authored by Qing WuQing Wu, Maksym SpiryaginMaksym Spiryagin, I Persson, Christopher BosomworthChristopher Bosomworth, Colin ColeColin Cole
Railway wheel–rail contact simulations are the most important and time-consuming tasks when simulating the system dynamics of vehicles. Parallel computing is a good approach for improving the numerical computing speed. This paper reports the advances in parallel computing of the wheel–rail contact simulations. The proposed method uses OpenMP to parallelise the multiple contact points of all the wheel–rail interfaces of a locomotive model. The method has been implemented in the vehicle system dynamics simulation package GENSYS. Simulations were conducted using two numerical solvers (4th Runge-Kutta and HeunC) and a maximum of four computer cores. Simulation cases have shown exactly the same numerical results using serial computing and parallel computing, which prove the effectiveness of the parallel computing method. The HeunC solver achieved the same simulation results and is 3.5 times faster than the 4th Runge-Kutta method. Simulation results obtained from both numerical solvers show that parallel computing using 2, 3 and 4 computer cores can improve the simulation speeds by roughly 29, 39 and 41%, respectively. There is an apparent diminishing of the rate of improvement due to the increase of the communication resource overhead when more computer cores are used. Using up to four computer cores does not require revision of the GENSYS code, and simulations can be executed using personal computers. © IMechE 2019.

History

Volume

234

Issue

10

Start Page

1109

End Page

1116

Number of Pages

8

eISSN

2041-3017

ISSN

0954-4097

Publisher

SAGE Publications

Peer Reviewed

  • Yes

Open Access

  • No

Acceptance Date

2019-09-15

External Author Affiliations

AB Desolver, Sweden

Author Research Institute

  • Centre for Railway Engineering

Era Eligible

  • Yes

Journal

Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit

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