GetDDM swMATH ID: 22118 Software Authors: Thierry, B.; Vion, A.; Tournier, S.; El Bouajaji, M.; Colignon, D.; Marsic, N.; Antoine, X.; Geuzaine, C. Description: GetDDM: an open framework for testing optimized Schwarz methods for time-harmonic wave problems. We present an open finite element framework, called GetDDM, for testing optimized Schwarz domain decomposition techniques for time-harmonic wave problems. After a review of Schwarz domain decomposition methods and associated transmission conditions, we discuss the implementation, based on the open source software GetDP and Gmsh. The solver, along with ready-to-use examples for Helmholtz and Maxwell’s equations, is freely available online for further testing. Homepage: http://cpc.cs.qub.ac.uk/summaries/AEZZ_v1_0.html Keywords: domain decomposition methods; parallel computing; finite element method; acoustics; electromagnetics Related Software: Gmsh; GetDP; MUMPS; ONELAB; PETSc; clique; PSP; HPDDM; GitHub; Feel++; FreeFem++ Cited in: 10 Publications Standard Articles 1 Publication describing the Software, including 1 Publication in zbMATH Year GetDDM: an open framework for testing optimized Schwarz methods for time-harmonic wave problems. Zbl 1380.65477Thierry, B.; Vion, A.; Tournier, S.; El Bouajaji, M.; Colignon, D.; Marsic, N.; Antoine, X.; Geuzaine, C. 2016 all top 5 Cited by 20 Authors 7 Geuzaine, Christophe A. 4 Antoine, Xavier 3 Thierry, Bertrand 2 Després, Bruno 2 Modave, Axel 2 Nicolopoulos, Anouk 2 Royer, Anthony 2 Vion, Alexandre 1 Béchet, Eric 1 Beise, Hans-Peter 1 Besse, Christophe 1 Colignon, D. 1 Darbas, Marion 1 El Bouajaji, Mohamed 1 Gasperini, David 1 Marsic, Nicolas 1 Mattesi, Vanessa 1 Schröder, Udo 1 Tournier, Simon 1 Xing, Feng all top 5 Cited in 8 Serials 2 Computer Methods in Applied Mechanics and Engineering 1 Computers & Mathematics with Applications 1 Computer Physics Communications 1 Wave Motion 1 Numerische Mathematik 1 SIAM Journal on Numerical Analysis 1 Journal of Scientific Computing 1 European Series in Applied and Industrial Mathematics (ESAIM): Proceedings and Surveys all top 5 Cited in 6 Fields 9 Numerical analysis (65-XX) 5 Partial differential equations (35-XX) 2 Mechanics of deformable solids (74-XX) 1 Computer science (68-XX) 1 Fluid mechanics (76-XX) 1 Optics, electromagnetic theory (78-XX) Citations by Year