Tags :SCAI

Fraunhofer SCAI MpCCI 4.4.2-1Fraunhofer SCAI, developer innovative methods in Computational Science, announced the release of MpCCI 4.3.1-2, is a software environment which enables the exchange of data between the models of two or more simulation codes at runtime. MpCCI (Mesh-based parallel Code Coupling Interface) has been developed at the Fraunhofer Institute SCAI in order to provide an application independent interface for the coupling of different simulation codes. MpCCI allows the exchange of various kinds of data between the coupled codes; e.g. energy and momentum sources, material properties, mesh definitions, or global quantities. The MpCCI interface has been accepted as a \’de-facto\’ standard for simulation code coupling. The user can combine codes of different disciplines and from independent software vendors in...

MpCCI 4.4.1-1 (April 2, 2015) MpCCI Co-Simulation Server Fixed bug in mapping error correction procedure for nodal based flux density / integral quantities, e.g. forces. Update is recommended. Batch system management Fix number of cores allocation by MpCCI batch system when submitting a job with a deactivated MpCCI Grid Morpher. This issue concerns the simulations codes OpenFOAM and STAR-CD. Optional user defined timeout value can be set for any client code trying to connect a server code. This allows to keep the client alive until the server process is ready. Monitoring Global variable defined as monitor is properly supported by the MpCCI server and defined as X-Y plot. Abaqus Several improvements for the co-simulation with Abaqus CSE platform Coupling with...

The \’MpCCI CouplingEnvironment\’ has been developed at SCAI in order to provide an application independent interface for the coupling of different simulation codes. MpCCI CouplingEnvironment has been accepted as a ‘de-facto’ neutral standard for simulation code coupling. Typical application areas are Aeroelastic and fluid-structure interaction Thermal stress analysis in turbines Thermal management by coupling of fluid and radiation codes Magneto-hydro dynamics and heat loss calculations – coupled EMAG and CFD HVAC applications by combination 1D pipeline models with 3D CFD Vehicle dynamics using 1D multi-body systems and non-linear structural analysis Customised solutions using more than 3 or more codes in a single application Combinations of commercial codes and highly tuned inhouse codesNew Co-Simulation Features Iterative coupling schemes for FSI and...