Some Concepts of the Software Package FEAST. This paper deals with the basic principles of the new FEM software package FEAST. For the FEAST software, which is mainly designed for high performance simulations, we explain the basic principles of the underlying numerical, algorithmic and implementation concepts. Computational examples illustrate the (expected) numerical and computational efficiency of this new software package, particularly in relation to existing approaches.

References in zbMATH (referenced in 16 articles )

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  1. Müthing, Steffen; Ribbrock, Dirk; Göddeke, Dominik: Integrating multi-threading and accelerators into DUNE-ISTL (2015)
  2. Huthwaite, Peter: Accelerated finite element elastodynamic simulations using the GPU (2014)
  3. Kronbichler, Martin; Kormann, Katharina: A generic interface for parallel cell-based finite element operator application (2012)
  4. Mistry, Perhaad; Schaa, Dana; Jang, Byunghyun; Kaeli, David; Dvornik, Albert; Meglan, Dwight: Data structures and transformations for physically based simulation on a GPU (2011)
  5. González, Manuel; González, Francisco; Luaces, Alberto; Cuadrado, Javier: A collaborative benchmarking framework for multibody system dynamics (2010) ioport
  6. Grajewski, Matthias; Köster, Michael; Turek, Stefan: Numerical analysis and implementational aspects of a new multilevel grid deformation method (2010)
  7. Turek, Stefan; Göddeke, Dominik; Becker, Christian; Buijssen, Sven H. M.; Wobker, Hilmar: FEAST-realization of hardware-oriented numerics for HPC simulations with finite elements (2010) ioport
  8. Becker, C.; Buijssen, S.; Turek, S.: FEAST: development of HPC technologies for FEM applications (2008)
  9. González, Manuel; González, Francisco; Dopico, Daniel; Luaces, Alberto: On the effect of linear algebra implementations in real-time multibody system dynamics (2008)
  10. Hübner, T.; Turek, S.: An efficient and accurate short-characteristics solver for radiative transfer problems (2007)
  11. Turek, Stefan; Hron, Jaroslav: Numerical techniques for multiphase flow with liquid-solid interaction (2007)
  12. Turek, Stefan; Kuzmin, Dmitri: Algebraic flux correction. III: Incompressible flow problems (2005)
  13. Strzodka, Robert: Hardware efficient PDE solvers in quantized image processing (2004)
  14. Rannacher, R.; Becker, Chr.; Turek, S.: An efficient Navier-Stokes solver for automotive aerodynamics (2003)
  15. Turek, S.; Becker, Ch.; Runge, A.: The FEAST indices -- realistic evaluation of modern software components and processor technologies (2001)
  16. Turek, S.; Becker, Chr.; Runge, A.: Performance rating via the Feast Indices (1999)