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Personnes associées (21)
Viktor Kuncak
Viktor Kunčak joined EPFL in 2007, after receiving a PhD degree from MIT. Since then has been leading the Laboratory for Automated Reasoning and Analysis and supervised at least 12 completed PhD theses. His works on languages, algorithms and systems for verification and automated reasoning. He served as an initiator and one of the coordinators of a European network (COST action) in the area of automated reasoning, verification, and synthesis. In 2012 he received a 5-year single-investigator European Research Council (ERC) grant of 1.5M EUR. His invited talks include those at Lambda Days, Scala Days, NFM, LOPSTR, SYNT, ICALP, CSL, RV, VMCAI, and SMT. A paper on test generation he co-authored received an ACM SIGSOFT distinguished paper award at ICSE. A PLDI paper he co-authored was published in the Communications of the ACM as a Research Highlight article. His Google Scholar profile reports an over-approximate H-index of 38. He was an associate editor of ACM Transactions on Programming Languages and Systems (TOPLAS) and served as a co-chair of conferences on Computer-Aided Verification (CAV), Formal Methods in Computer Aided Design (FMCAD), Workshop on Synthesis (SYNT), and Verification, Model Checking, and Abstract Interpretation (VMCAI). At EPFL he teaches courses on functional and parallel programming, compilers, and verification. He has co-taught the MOOC "Parallel Programming" that was visited by over 100'000 learners and completed by thousands of students from all over the world.
Martin Odersky
Martin Odersky heads the programming research group at EPFL. His research interests cover fundamental as well as applied aspects of programming languages. They include semantics, type systems, programming language design, and compiler construction. The main focus if his work lies in the integration of object-oriented and functional programming. His research thesis is that the two paradigms are just two sides of the same coin and should be unified as much as possible. To prove this he has experimented a number of language designs, from Pizza to GJ to Functional Nets. He has also influenced the development of Java as a co-designer of Java generics and as the original author of the current javac reference compiler. His current work concentrates on the Scala programming language, which unifies FP and OOP, while staying completely interoperable with Java and .NET.
Martin Odersky got his doctorate from ETHZ, in 1989. He held research positions at the IBM T.J. Watson Research Center from 1989 and at Yale University from 1991. He was then a professor at the University of Karlsruhe from 1993 and at the University of South Australia from 1997. He joined EPFL as full professor in 1999. He is associate editor of the Journal of Functional Programming and member of IFIP WG 2.8. He was conference chair for ICFP 2000, and program chair for ECOOP 2004 as well as ETAPS/CC 2007.
Claude Petitpierre
Claude Petitpierre has received his diploma of Electrical Engineer in 1972 from EPFL. He spent the next 5 years in the industry, where he participated in the development of realtime cement plant control. He went back to EPFL, obtained the title of Doctor in 1984 and then spent one year (1985-1986) at the AT&T Bell Labs in Holmdel. He was appointed professor in 1987.
He is interested in the theories and techniques that can support the development of complete and reliable software products and in the formal modeling and analysis theories. The work pursued in his laboratory led to the development of a parsimonious superset of Java, supporting concurrency with a concept close to the one provided by formal languages such as CCS or CSP. He is currently devising a development environment that supports the creation of J2EE application in the frame of software engineering.
Claude Petitpierre is also interested in computer aided teaching. He has developed a computer aided programming course that has been used by first year students.
Rachid Guerraoui
Rachid Guerraoui has been affiliated with Ecole des Mines of Paris, the Commissariat à l'Energie Atomique of Saclay, Hewlett Packard Laboratories and the Massachusetts Institute of Technology. He has worked in a variety of aspects of distributed computing, including distributed algorithms and distributed programming languages. He is most well known for his work on (e-)Transactions, epidemic information dissemination and indulgent algorithms.
He co-authored a book on Transactional Systems (Hermes) and a book on reliable distributed programming (Springer). He was appointed program chair of ECOOP 1999, ACM Middleware 2001, IEEE SRDS 2002, DISC 2004 and ACM PODC 2010.
His publications are available at http://lpdwww.epfl.ch/rachid/papers/generalPublis.html
Olivier Schneider
Après une thèse en physique des particules à l'Université de Lausanne, soutenue en 1989, Olivier Schneider rejoint le LBL, Lawrence Berkeley Laboratory (Californie), pour travailler sur l'expérience CDF au Tevatron de Fermilab (Illinois), d'abord au bénéfice d'une bourse de chercher débutant du Fonds National Suisse pour la Recherche Scientifique, puis comme post-doc au LBL. Il participe à la construction et à la mise en service du premier détecteur de vertex au silicium fontionnant avec succès auprès d'un collisionneur hadronique, détecteur qui a permis la découverte du sixième quark, appelé "top". Dès 1994, il revient en Europe et participe à l'expérience ALEPH au grand collisionneur électron-positon du CERN (Genève), comme boursier puis comme titulaire d'un poste de chercheur au CERN. Il se spécialise en physique des saveurs lourdes. En 1998, il est nommé professeur associé à l'Université de Lausanne, puis professeur extraordinaire à l'EPFL en 2003, et enfin professeur ordinaire à l'EPFL en 2010. Ayant participé depuis 1997 à la préparation de l'expérience LHCb au collisionneur LHC du CERN, entrée en fonction à fin 2009, il en analyse maintenant les données. Il contribue aussi depuis 2001 à l'exploitation des données enregistrées par l'expérience Belle au laboratoire KEK (Tsukuba, Japon). Ces deux expériences étudient principalement les désintégrations de hadrons contenant un quark b, ainsi que la violation de CP, c'est-à-dire le non-respect de la symétrie entre matière et antimatière.