A Spatio-temporal Coupling Method to Reduce the Time-to-Solution of Cardiovascular Simulations

Author

Randles, Amanda ; Kaxiras, Efthimios

Author_Institution

Center for Appl. Sci. Comput., Lawrence Livermore Nat. Lab., Livermore, CA, USA

fYear

2014

fDate

19-23 May 2014

Firstpage

593

Lastpage

602

Abstract

We present a new parallel-in-time method designed to reduce the overall time-to-solution of a patient-specific cardiovascular flow simulation. Using a modified Para real algorithm, our approach extends strong scalability beyond spatial parallelism with fully controllable accuracy and no decrease in stability. We discuss the coupling of spatial and temporal domain decompositions used in our implementation, and showcase the use of the method on a study of blood flow through the aorta. We observe an additional 40% reduction in overall wall clock time with no significant loss of accuracy, in agreement with a predictive performance model.

Keywords

cardiovascular system; haemodynamics; lattice Boltzmann methods; spatiotemporal phenomena; aorta; blood flow; parallel-time method; parareal algorithm; patient-specific cardiovascular flow simulation; predictive performance model; spatial parallelism; spatiotemporal coupling method; temporal domain decompositions; Accuracy; Computational modeling; Couplings; Heuristic algorithms; Lattice Boltzmann methods; Viscosity; computational fluid dynamics; lattice Boltzmann; parallel-in-time;

fLanguage

English

Publisher

ieee

Conference_Titel

Parallel and Distributed Processing Symposium, 2014 IEEE 28th International

Conference_Location

Phoenix, AZ

ISSN

1530-2075

Print_ISBN

978-1-4799-3799-8

Type

conf

DOI

10.1109/IPDPS.2014.68

Filename

6877292