Jean-François Méhaut, Corse project-team

• Performance optimization of HPC applications
• Runtime systems, multithreading and memory management in NUMA multiprocessors, multi-core and hybrid programming

Frédéric Desprez, Corse project-team

• Parallel numerical algorithms and libraries, scheduling

François Broquedis, Corse project-team

• Performance optimization of HPC applications

• High performance middleware, parallel programming models

• High performance middleware, parallel programming models

Fabrice Rastello,

Fabrice Rastello, Corse project-team

• Automatic parallelization and compiler back-end optimization

Serena project-team

Serena project-team

• Collaborative software platform

• Ezperf(Technological Development Action)

• Maphys@Exa (Technological Development Action)

Pierrick Brunet, Moais project-team

• Source-to-source compiler for Openmp programs
• Starpu or the Xkaapi runtime systems
• K'Star

• Source-to-source compiler for Openmp programs
• Starpu or the Xkaapi runtime systems

Samuel Pitoiset, Storm project-team (formerly in the Runtime project-team)

• Source-to-source compiler for Open MP? programs
• Star PU? or the X Kaapi? runtime systems
• K'Star

Tristan Cabel, Nachos project-team

• Collaborative software platform for the C 2 S?@Exa project
• Simon (Technological Development Action)

• El Gaucho (Technological Development Action)

Matias Hastaran, Hipeacs project-team

• Performance evaluation
• Ez Perf? (Technological Development Action)

Julien Pédron, Hipeacs project-team

• Hybrid iterative-direct sparse linear solvers on heterogeneous architectures
• Ma P Hys?@Exa (Technological Development Action)

Stojce Nakov, Hipeacs project-team

• Hybrid iterative-direct sparse linear solvers on heterogeneous architectures

Raphaël Léger, Nachos project-team

• Numerical methods for electromagnetics
• High performance computing on hybrid MIMD/SIMD architectures

Jérôme Richard, Avalon project-team

• Component models and task scheduling in the context of High-Performance Computing

Jean Roman, Hipeacs project-team

• Numerical linear algebra

Alexandra Christophe Argenvillier, Nachos project-team

• Numerical methods for electromagnetics

Storm project-team (formerly in the Runtime project-team)

• Runtime systems
• StarPU unified runtime system for heterogeneous multicore architectures

Denis Barthou,

Thierry Gautier, Avalon project-team (formerly in the Moais project-team)

Pomdapi2 project-team

Hiepacs project-team

Thierry Gautier, Avalon project-team

Stéphane Lanteri, Nachos project-team

• Numerical methods for electromagnetics

Hipeacs project-team

Hipeacs project-team

Hipeacs project-team

Sage project-team

Jocelyne Erhel, Sage project-team

• Numerical algorithms for linear and nonlinear problems (sparse linear algebra, iterative solvers)
• Environmental applications (hydrogeology, geophysics)
• H20Lab software platform for numerical models in hydrogeology

Michel Kern, Pomdapi2 project-team

Frédéric Vivien, Roma project-team

• Scheduling, automatic parallelization

François Pellegrini, Bacchus project-team

• Scalable graph partiitoning and repartitioning
• Scotch software package and libraries for sequential and parallel graph partitioning, static mapping, and sparse matrix block ordering, and sequential mesh and hypergraph partitioning

Tonus project-team

Pierre Navarro, Calvi project-team

• Numerical methods for plasmas physics
• SeLaLib modular library for the gyrokinetic simulation model by a semi-Lagrangian method

Mawussi Zounon, Hipeacs project-team

• Numerical resiliency in sparse linear solvers

Laura Grigori, Alpines project-team

• Numerical linear algebra
• Communication avoiding algorithms

Jean-Yves L’Excellent, Roma project-team

• Numerical linear algebra
• MUMPS massively parallel sparse direct solver

Storm project-team (formerly in the Runtime project-team)

Emmanuel Agullo, Hipeacs project-team

• Numerical linear algebra
• MaPHyS massively parallel hybrid solver

Luc Giraud,

Stojce Nakov,

Mawussi Zounon, Hipeacs project-team

• Numerical resiliency in sparse linear solvers

Stojce Nakov Hipeacs project-team

• Hybrid iterative-direct sparse linear solvers on heterogeneous architectures

Pierre Navarro, Calvi project-team

• Numerical methods for plasmas physics
• SeLaLib modular library for the gyrokinetic simulation model by a semi-Lagrangian method

Researchers of the associate project-teams

Emmanuel Frénod,

Emmanuel Frénod,

Emmanuel Frénod, Calvi project-team

• Numerical methods for plasmas physics
• SeLaLib modular library for the gyrokinetic simulation model by a semi-Lagrangian method

Edouard Canot, Sage project-team

• Numerical algorithms for linear and nonlinear problems (sparse linear algebra, iterative solvers)
• Environmental applications (hydrogeology, geophysics)
• H20Lab software platform for numerical models in hydrogeology

• Parallel mesh partitioning and adaptation

Cédric Lachat, Bacchus project-team

• Parallel mesh partitioning and adaptation with Pa MPA?

• Collaborative software development platform

Nassim Jibai, Nachos project-team

• Collaborative software platform for the C 2 S?@Exa project

Post-doctoral students

Fixed-term engineers

Fabien Rozar, Hiepacs project-team

• Scalability issues in the GYSELA simulation software for plasma dynamics

Researchers of the core project-teams

Researchers of the core project-teams

Permanent of the core project-teams

Doctoral students

Doctoral students

Permanent of the core project-teams

• Scheduling, automatic parallelization

Ph D? students

Researchers for the core project-teams

Laura Grigori, Alpines project-team

• Numerical linear algebra
• Communication avoiding algorithms

Pierre Ramet,

Pierre Ramet, , Hipeacs project-team

• Numerical linear algebra
• PasTiX massively parallel sparse direct solver

Franck Cappello, Grand-Large project-team

• Resilience and fault-tolerance at exetrem scale
• INRIA-Illinois joint laboratory for petascale computing

Frédéric Vivien, Roma project-team

• Scheduling, automatic parallelization

Jean-Yves L’Excellent, Roma project-team

Luc Giraud , Hipeacs project-team

• Numerical linear algebra
• MaPHyS massively parallel hybrid solver

Christian Perez, Avalon project-team

• High performannce middleware, parallel programming models
• HLCM high level component model

Thierry Gautier, Moais project-team

• High performannce middleware, parallel programming models
• Xkaapi kernel for adaptative, asynchronous parallel and interactive programming

• StarPU unified runtime system for heterogeneous multicore architectures

• unified runtime system for heterogeneous multicore architectures

Olivier Aumage, Runtime project-team

• Runtime systems
• unified runtime system for heterogeneous multicore architectures

Bacchus project-team

• Scotch software package and libraries for sequential and parallel graph partitioning, static mapping, and sparse matrix block ordering, and sequential mesh and hypergraph partitioning

François Pellegrini, [[http://bacchus.bordeaux.inria.fr | Bacchus] project-team

• Scalable graph partiitoning and repartitioning
• [[http://www.labri.fr/perso/pelegrin/scotch | Scotch] software package and libraries for sequential and parallel graph partitioning, static mapping, and sparse matrix block ordering, and sequential mesh and hypergraph partitioning

Philippe Helluy, Calvi project-team

• Numerical methods for plasmas physics
• SeLaLib modular library for the gyrokinetic simulation model by a semi-Lagrangian method

• H20Lab software platform for numerical models in hydrogeology

• Environmental applications (hydrogeology, geophysics)
• [[http://h2olab.inria.fr | H 20 Lab?] software platform for numerical models in hydrogeology

• MUMPS massively parallel sparse direct solver

Jocelyne Erhel, Sage project-team

• Numerical algorithms for linear and nonlinear problems (sparse linear algebra, iterative solvers)
• Environmental applications (hydrogeology, geophysics)

Luc Giraud , Hipeacs project-team

• Numerical linear algebra
• MaPHyS massively parallel hybrid solver

Jean-Yves L’Excellent, Roma project-team

• MUMPS massively parallel sparse direct solver

• MUMPS M Ultifrontal? Massively Parallel sparse direct Solver

• Numerical linear algebra
• MUMPS

Roma project-team + Numerical linear algebra + MUMPS

Jean-Yves L’Excellent, Roma project-team