D
Derrick Kondo
Researcher at French Institute for Research in Computer Science and Automation
Publications - 63
Citations - 3602
Derrick Kondo is an academic researcher from French Institute for Research in Computer Science and Automation. The author has contributed to research in topics: Grid & Grid computing. The author has an hindex of 29, co-authored 63 publications receiving 3454 citations. Previous affiliations of Derrick Kondo include Teradata & University of Paris-Sud.
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Book ChapterDOI
Self-* and Adaptive Mechanisms for Large Scale Distributed Systems
TL;DR: This paper describes some of the areas for which adaptation emerges as a key feature of computational Grids, the self-management of desktop Grid platforms and the monitoring and healing of complex applications, and elaborates on the use of bio-inspired algorithms to achieve self- management.
Grid Architectural Issues: State-of-the-art and Future Trends
Artur Andrzejak,Alexander Reinefeld,Florian Schintke,Thorsten Schütt,Carlo Mastroianni,Paraskevi Fragopoulou,Derrick Kondo,Paul Malecot,Gheorghe Cosmin Silaghi,Luis Silva,Paolo Trunfio,Demetris Zeinalipour-Yazti,Eugenio Zimeo +12 more
TL;DR: The current state-of-the-art on the research topics of the partners involved in the Architectural Issues Institute of the CoreGRID NoE, with special focus on scalable resource discovery, fault tolerance for Grid systems, and adaptability and performance predictions mechanisms for a self-manageable Grid infrastructure are presented.
Book ChapterDOI
Validating Desktop Grid Results By Comparing Intermediate Checkpoints
TL;DR: A model that gives the benefit of intermediate checkpointing as a function of checkpoint frequency and error rate is developed, and it is found that with an error rate of 5% and checkpoint frequency of 20 times per task, the gain is as high as 35% compared to the case where error detection is done only at the end of task execution.
Book ChapterDOI
Using Cliques Of Nodes To Store Desktop Grid Checkpoints
TL;DR: To simplify construction and maintenance of the cliques, the solution takes advantage of the central supervisor of BOINC and arranges nodes to form complete graphs (cliques), where nodes share all the checkpoints they compute.
Proceedings ArticleDOI
DSL-Lab: A Low-Power Lightweight Platform to Experiment on Domestic Broadband Internet
Gilles Fedak,Jean-Patrick Gelas,Thomas Herault,Victor Iniesta,Derrick Kondo,Laurent Lefèvre,Paul Malecot,Lucas Nussbaum,Ala Rezmerita,Olivier Richard +9 more
TL;DR: The design and building of DSL-Lab is presented, a platform to experiment on distributed computing over broadband domestic Internet to provide a validation and experimentation platform for new protocols, services, simulators and emulators for distributed systems.