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Comparing Synchronous and Asynchronous Variable Step Size Explicit ODE Solvers: A Simulation Study

Published: 12 June 2007 Publication History

Abstract

The efficient integration of ordinary differential equations (ODEs) is an important topic in continuous and hybrid systems research. Current solutions involve variable step size solvers based on synchronous and asynchronous approaches. In this paper we evaluate, by means of simulation, the performance and accuracy of adaptive explicit asynchronous ODE solvers and we compare them with explicit synchronous solvers. Simulation results show that explicit synchronous solvers can exhibit better performance than the corresponding asynchronous methods. We consider a family of systems that can be dynamically partitioned into asynchronous clusters of synchronous ODEs. We show that the ability to independently solve each cluster can lead to significant computation gains.

References

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{1} F. J. Barros. "Representing Synchronous Variable Stepsize Integration Algorithms in the HFSS Formalism". Proceedings of the Conceptual Modeling and Simulation Conference, pp. 77-82, 2005.
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{2} C. W. Gear. "Multirate Linear Multistep Methods", BIT, Vol. 24, pp. 484-502, 1984.
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{3} R. Griffith, M. Nakhla. "A New High-Order Absolutely-Stable Explicit Numerical Integration Algorithm for the Time-Domain Simulation of Nonlinear Circuits", IEEE/ACM Intl. Conf. Computer Aided-Design, pp. 276-280, 1997.
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{4} E. Hairer, S. P. Nørsett, G. Wanner. Solving Ordinary Differential Equations I: Non Stiff Problems, Springer, 2000.
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{5} S. Mosbach, M. Kraft. "A New Explicit Numerical Scheme for Large Scale Combustion Problems", University of Cambridge, TR-12-c4e, 2003.
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{6} B. P. Zeigler, J. S. Lee. "Theory of Quantized Systems: Formal Basis for DEVS/HLA Distributed Simulation Environment", Proc. Enabling Technology for Simulation Science II, SPIE Vol. 3369, pp. 49-58, 1998.
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{7} B. P. Zeigler, H. Praehofer, T. G. Kim. Theory of Modelling and Simulation, 2nd Edition, Academic Press, 2000.

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Published In

cover image ACM Conferences
PADS '07: Proceedings of the 21st International Workshop on Principles of Advanced and Distributed Simulation
June 2007
208 pages
ISBN:0769528988

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IEEE Computer Society

United States

Publication History

Published: 12 June 2007

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PADS '07 Paper Acceptance Rate 24 of 37 submissions, 65%;
Overall Acceptance Rate 398 of 779 submissions, 51%

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