Gilles Muller mostly deals with Operating system, Java, Programming language, Embedded system and Program transformation. His work carried out in the field of Operating system brings together such families of science as Domain-specific language, Range and Code. His work in Java addresses subjects such as Object-oriented programming, which are connected to disciplines such as Component-based software engineering and Generics in Java.
His study of Compiler is a part of Programming language. His Embedded system research is multidisciplinary, incorporating perspectives in System software and Software engineering. In his study, Source code is inextricably linked to Software evolution, which falls within the broad field of Program transformation.
Gilles Muller mainly investigates Operating system, Programming language, Distributed computing, Embedded system and Linux kernel. The study incorporates disciplines such as Domain-specific language and Code in addition to Operating system. His Compiler, Java, Object-oriented programming and Model checking study in the realm of Programming language interacts with subjects such as Conjunction.
His Distributed computing study combines topics in areas such as Scheduling, Computer network, Communications protocol and Communications system. His Embedded system research incorporates elements of Overhead and Porting. Gilles Muller interconnects Tree, Debugging, Kernel and Software evolution in the investigation of issues within Linux kernel.
His primary scientific interests are in Operating system, Multi-core processor, Linux kernel, Android and Parallel computing. His research in Operating system intersects with topics in Interface and Code. His Linux kernel study incorporates themes from Software system, Kernel and Porting.
His Parallel computing study integrates concerns from other disciplines, such as Stack, Thread, Frequency scaling and Software transactional memory. His studies deal with areas such as Programming language and Debugging as well as Configfs. Gilles Muller is studying Compiler, which is a component of Programming language.
Gilles Muller spends much of his time researching Operating system, Linux kernel, Selfishness, Multi-core processor and Load balancing. His studies in Operating system integrate themes in fields like Interface and Code snippet. Gilles Muller has researched Linux kernel in several fields, including Code, Pointer and Porting.
His study looks at the relationship between Porting and fields such as Task, as well as how they intersect with chemical problems. The Multi-core processor study combines topics in areas such as Remote procedure call, Lock, Thread, Benchmark and Overhead. The various areas that Gilles Muller examines in his Distributed computing study include Testbed, Computer network and Live streaming.
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Entropy: a consolidation manager for clusters
Fabien Hermenier;Xavier Lorca;Jean-Marc Menaud;Gilles Muller.
virtual execution environments (2009)
Think: A Software Framework for Component-based Operating System Kernels
Jean-Philippe Fassino;Jean-Bernard Stefani;Julia L. Lawall;Gilles Muller.
usenix annual technical conference (2002)
Faults in linux: ten years later
Nicolas Palix;Gaël Thomas;Suman Saha;Christophe Calvès.
architectural support for programming languages and operating systems (2011)
Documenting and automating collateral evolutions in linux device drivers
Yoann Padioleau;Julia Lawall;René Rydhof Hansen;Gilles Muller.
european conference on computer systems (2008)
Remote core locking: migrating critical-section execution to improve the performance of multithreaded applications
Jean-Pierre Lozi;Florian David;Gaël Thomas;Julia Lawall.
usenix annual technical conference (2012)
Devil: an IDL for hardware programming
Fabrice Mérillon;Laurent Réveillère;Charles Consel;Renaud Marlet.
operating systems design and implementation (2000)
Harissa: a flexible and efficient java environment mixing bytecode and compiled code
Gilles Muller;Bárbara Moura;Fabrice Bellard;Charles Consel.
usenix conference on object oriented technologies and systems (1997)
Tempo: specializing systems applications and beyond
C. Consel;L. Hornof;R. Marlet;G. Muller.
ACM Computing Surveys (1998)
Java bytecode compression for low-end embedded systems
Lars Ræder Clausen;Ulrik Pagh Schultz;Charles Consel;Gilles Muller.
ACM Transactions on Programming Languages and Systems (2000)
Specialization tools and techniques for systematic optimization of system software
Dylan McNamee;Jonathan Walpole;Calton Pu;Crispin Cowan.
ACM Transactions on Computer Systems (2001)
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