Joint project-team with LABRI (CNRS, University of Bordeaux 1 and ENSEIRB-MATMECA) and IMB (CNRS and Bordeaux 1 and 2 Universities), located in Bordeaux.
SCALAPPLIX
Algorithms and high performance computing for grand challenge applications
Jean Roman
Type :
Project-Team
National structure id : 200218254M
SCALAPPLIX was dissolved on 31 December 2008
Team presentation
The objective of this project is to leverage complementary scientific skills for multidisciplinary research in the field of high performance computing and numerical modeling. To achieve this goal, the project intends to analyze and efficiently solve scientific computing problems coming from complex applications that require computing power and manipulate data of the order of the teraflop.
Research themes
Compact multidimensional schemes
High performance algorithms
High performance implementation, visualization and steering of distributed numerical simulations by a virtual reality code.
International and industrial relations
In addition to collaborations with strongly involved exterior members, we maintain collaborations with a certain number of researchers and engineers from academic and industrial institutions.
Regional academic collaborations (Bordeaux)
Structural biology and bioinformatics: M. Laguerre - IECB;
Quantum molecular dynamics: L. Ducasse - LPCM;
Image and virtual reality: P. Guitton - LaBRI;
Parallel computing: B. Cirou, M.C. Counilh, J.M. Lépine, F. Rubi - LaBRI et P. Charrier - MAB.
National academic collaborations
Distributed molecular dynamics and virtual reality: Centre Charles Hermite (Nancy);
Population dynamics: P. Silan (UMR CNRS 5000, GPI, Sète);
Diphasic and interface flows: H. Guillard (Smash INRIA Sophia); R. Saurel (IUSTI Marseille and Smash INRIA Sophia);
Grid Computing platform (ACI GRID RMI), parallel Corba objects: C. Perez, T. Priol (Paris, IRISA Rennes);
Parallel computing, sparse solvers: F. Desprez, J.Y. L’Excellent (Remap, INRIA Rhône-Alpes); J. Erhel, B. Philippe (Aladin, IRISA Rennes); I. Duff (CERFACS, Toulouse); compact multidimensional schemes: A. Lerat (ENSAM Paris).
International academic collaborations
Interface flows: S. Karni (University of Michigan, Ann Arbor, USA);
Parallel computing, sparse solvers: Y. Saad, M. Sosonkina (University of Minneapolis, USA); R. Bramley (University of Indiana, USA); S. Li, E. Ng (NERSC-Lawrence Berkeley Laboratory, USA); J.R. Gilbert (Xerox, USA);
Compact multidimensional schemes: H. Deconinck (VKI, Belgium); P.L. Roe (University of Michigan, Ann Arbor, USA); Z.J. Wang (University of Michigan, East Lansing, USA); Th. Sonar (TU Braunschweig, Germany).
Industrial collaborations
Interface flows: EADS, ONERA;
Hamilton Jacobi equations: SNPE;
Parallel computing, laser plasma interaction: CEA - DAM;
Parallel computing, sparse solvers, electromagnetism: CEA - DAM;
Parallel computing, propagation of a laser beam in a chain of optical components of the Méga-Joule laser type: CEA - DAM;
Compact multidimensional schemes, diphasic flows: Dassault, CEA - DAM.
