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ExaFSA: Parallel Fluid-Structure-Acoustic Simulation [chapter]

Florian Lindner, Amin Totounferoush, Miriam Mehl, Benjamin Uekermann, Neda Ebrahimi Pour, Verena Krupp, Sabine Roller, Thorsten Reimann, Dörte C. Sternel, Ryusuke Egawa, Hiroyuki Takizawa, Frédéric Simonis
2020 Lecture Notes in Computational Science and Engineering  
Whereas we made a first proof of concept for a three-field simulation (elastic structure, surrounding turbulent acoustic flow in the near-field, and pure acoustic wave propagation in the far-field) in  ...  simulation of turbulent flow and propagation of the induced acoustic perturbations.  ...  Summary and Conclusion We have presented a partitioned simulation environment for the massively parallel simulation of fluid-structure-acoustic interactions.  ... 
doi:10.1007/978-3-030-47956-5_10 fatcat:v4jlceviunah7adlgtzo5mhknu

Software for Exascale Computing: Some Remarks on the Priority Program SPPEXA [chapter]

Hans-Joachim Bungartz, Wolfgang E. Nagel, Philipp Neumann, Severin Reiz, Benjamin Uekermann
2020 Lecture Notes in Computational Science and Engineering  
Simulation of Fluid-Structure-Acoustics Interactions.  ...  Simulation of Fluid-Structure-Acoustics Interactions.  ... 
doi:10.1007/978-3-030-47956-5_1 fatcat:biw25t7kdrdd7k2l7sra7qfleu

Data transfer in partitioned multi-physics simulations : interpolation & communication [article]

Florian Lindner, Universität Stuttgart, Universität Stuttgart
Uekermann who developed a comprehensive tool to couple independent simulation codes.  ...  Partitioned multi-physics simulations allow to reuse existing solvers and to combine them to multi-physics scenarios.  ...  The strongly-coupled fluid-structure system is simulated by coupling a finite-volume fluid with a finite-element structure solver.  ... 
doi:10.18419/opus-10581 fatcat:sl6cx2dnv5hhtkkxuf3ldhuagq