There is an increasing need for multidisciplinary simulations in various research and engineering fields. Fluid-structure interaction, magneto-hydro dynamics, thermal coupling, plasma computations or coupled manufacturing processes define only a subset of recent multi-physics activities. There is a common feeling in the community that in most cases not a single (proprietary) simulation system can provide all necessary features but that coupling the best of each discipline will enable more flexibility and simulation quality to the end user. The MpCCI interface has been accepted as a ’de-facto’ standard for simulation code coupling. MpCCI is developed at Fraunhofer Institute for Algorithms and Scientific Computing (SCAI).

References in zbMATH (referenced in 23 articles , 1 standard article )

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  1. Engwer, Christian; Müthing, Steffen: Concepts for flexible parallel multi-domain simulations (2016)
  2. Krause, Rolf; Zulian, Patrick: A parallel approach to the variational transfer of discrete fields between arbitrarily distributed unstructured finite element meshes (2016)
  3. Dehning, Carsten; Bierwisch, Claas; Kraft, Torsten: Co-simulations of discrete and finite element codes (2015)
  4. Kataoka, Shunji; Minami, Satsuki; Kawai, Hiroshi; Yamada, Tomonori; Yoshimura, Shinobu: A parallel iterative partitioned coupling analysis system for large-scale acoustic fluid-structure interactions (2014)
  5. Gander, Martin J.; Japhet, Caroline: Algorithm 932, PANG: software for nonmatching grid projections in 2D and 3D with linear complexity (2013)
  6. Bouziane, Hinde Lilia; Pérez, Christian; Priol, Thierry: Extending software component models with the master-worker paradigm (2010)
  7. Delalondre, Fabien; Smith, Cameron; Shephard, Mark S.: Collaborative software infrastructure for adaptive multiple model simulation (2010)
  8. Schäfer, M.; Sternel, D.C.; Becker, G.; Pironkov, P.: Efficient numerical simulation and optimization of fluid-structure interaction (2010)
  9. Roszak, R.; Posadzy, P.; Stankiewicz, W.; Morzyński, M.: Fluid-structure interaction for large scale complex geometry and nonlinear properties of structure (2009)
  10. Ali, I.; Escobar, M.; Kaltenbacher, M.; Becker, S.: Time domain computation of flow induced sound (2008)
  11. Ali, Irfan; Becker, Stefan; Utzmann, Jens; Munz, Claus-Dieter: Aeroacoustic study of a forward facing step using linearized Euler equations (2008)
  12. Brenk, Markus; Bungartz, Hans-Joachim; Mehl, Miriam; Muntean, Ioan L.; Neckel, Tobias; Weinzierl, Tobias: Numerical simulation of particle transport in a drift ratchet (2008)
  13. Mehl, Miriam; Brenk, Markus; Bungartz, Hans-Joachim; Daubner, Klaus; Muntean, Ioan Lucian; Neckel, Tobias: An Eulerian approach for partitioned fluid-structure simulations on Cartesian grids (2008)
  14. Schäfer, Frank; Kniesburges, Stefan; Uffinger, Thomas; Becker, Stefan; Grabinger, Jens; Link, Gerhard; Kaltenbacher, Manfred: Numerical simulation of fluid-structure- and fluid-structure-acoustic interaction based on a partitioned coupling scheme (2008)
  15. Sternel, D.C.; Schäfer, M.; Heck, M.; Yigit, S.: Efficiency and accuracy of fluid-structure interaction simulations using an implicit partitioned approach (2008)
  16. Yiğit, Saim: Phenomena of fluid-structure interaction and their numerical computation (2008)
  17. de Boer, A.; van Zuijlen, A.H.; Bijl, H.: Review of coupling methods for non-matching meshes (2007)
  18. Yigit, Saim; Schäfer, Michael; Heck, Marcus: Numerical investigation of structural behaviour during fluid-excited vibrations (2007)
  19. Brenk, Markus; Bungartz, Hans-Joachim; Mehl, Miriam; Neckel, Tobias: Fluid-structure interaction on Cartesian grids: flow simulation and coupling environment (2006)
  20. Schäfer, Michael; Heck, Marcus; Yigit, Saim: An implicit partitioned method for the numerical simulation of fluid-structure interaction (2006)

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