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** '''[[Hemera:SC:Energy|Energy Profiling of Large Scale Applications]]''' -- Laurent Lefèvre (AVALON), Jean-Marc Pierson (IRIT), Jean-Marc Menaud (ASCOLA) | ** '''[[Hemera:SC:Energy|Energy Profiling of Large Scale Applications]]''' -- Laurent Lefèvre (AVALON), Jean-Marc Pierson (IRIT), Jean-Marc Menaud (ASCOLA) | ||
** '''[[Hemera:SC:P2P-Ch|Robustness of Large Systems in Presence of High Churn]]''' -- Pierre Sens (REGAL), Jean-Marc Vincent (MESCAL) | ** '''[[Hemera:SC:P2P-Ch|Robustness of Large Systems in Presence of High Churn]]''' -- Pierre Sens (REGAL), Jean-Marc Vincent (MESCAL) | ||
** '''[[Hemera:SC:Orchestration|Orchestrating Experiments on the gLite Production Grid Middleware]]''' -- Lucas Nussbaum (ALGORILLE), Frédéric Suter (CC IN2P3). | |||
** '''[[Hemera:SC:OpenStack|OpenStack on Grid'5000]]''' -- Lucas Nussbaum. | |||
** '''[[Hemera:SC:Virtualization|Large Scale Management of Virtual Machines]]''' -- Adrien Lèbre (ASCOLA) | ** '''[[Hemera:SC:Virtualization|Large Scale Management of Virtual Machines]]''' -- Adrien Lèbre (ASCOLA) | ||
** '''[[Hemera:SC: | ** '''[[Hemera:SC:IOHPC|I/O and in-situ Visulization for HPC]]''' -- Gabriel Antoniu (KerData). | ||
* ''Programming Paradigm'' | * ''Programming Paradigm'' | ||
** '''[[Hemera:SC:COPs|Large Scale Computing for Combinatorial Optimization Problems]]''' -- Bilel Derbel (DOLPHIN), Nouredine Melab (DOLPHIN) | ** '''[[Hemera:SC:COPs|Large Scale Computing for Combinatorial Optimization Problems]]''' -- Bilel Derbel (DOLPHIN), Nouredine Melab (DOLPHIN) | ||
** '''[[Hemera:SC:MapRed|Scalable Distributed Processing Using the MapReduce Paradigm]]''' -- Gabriel Antoniu (KERDATA), Gilles Fedak (GRAAL) | ** '''[[Hemera:SC:MapRed|Scalable Distributed Processing Using the MapReduce Paradigm]]''' -- Gabriel Antoniu (KERDATA), Gilles Fedak (GRAAL) | ||
** '''[[Hemera:SC:Analytics|Big Data Analytics]]''' -- Reza Akbarinia (Zenith) | |||
** '''[[Hemera:SC:TripleStore|Evaluating the performance of large-scale triplestores with Big Linked Datasets]]''' -- CEDAR. | |||
** '''[[ Hemera:SC:L2C exp |Low Level Component Model Enabling Performance Portability of HPC Applications]]''' -- Christian Perez (Avalon) | ** '''[[ Hemera:SC:L2C exp |Low Level Component Model Enabling Performance Portability of HPC Applications]]''' -- Christian Perez (Avalon) | ||
* ''Domain Specific'' | * ''Domain Specific'' | ||
Revision as of 10:17, 8 December 2014
Scientific Challenges
Scientific challenges concentrate effort of some partners on well defined issues, such as a particular experiment on Grid’5000. Scientific challenges are expected to be bound in time. However, a scientific challenge may contain several sub-challenges, typically representing various steps toward the ultimate challenges.
- Network
- Traffic Awareness -- Paulo Gonçalves (RESO), K. Avrachenkov (MAESTRO)
- System
- Energy Profiling of Large Scale Applications -- Laurent Lefèvre (AVALON), Jean-Marc Pierson (IRIT), Jean-Marc Menaud (ASCOLA)
- Robustness of Large Systems in Presence of High Churn -- Pierre Sens (REGAL), Jean-Marc Vincent (MESCAL)
- Orchestrating Experiments on the gLite Production Grid Middleware -- Lucas Nussbaum (ALGORILLE), Frédéric Suter (CC IN2P3).
- OpenStack on Grid'5000 -- Lucas Nussbaum.
- Large Scale Management of Virtual Machines -- Adrien Lèbre (ASCOLA)
- I/O and in-situ Visulization for HPC -- Gabriel Antoniu (KerData).
- Programming Paradigm
- Large Scale Computing for Combinatorial Optimization Problems -- Bilel Derbel (DOLPHIN), Nouredine Melab (DOLPHIN)
- Scalable Distributed Processing Using the MapReduce Paradigm -- Gabriel Antoniu (KERDATA), Gilles Fedak (GRAAL)
- Big Data Analytics -- Reza Akbarinia (Zenith)
- Evaluating the performance of large-scale triplestores with Big Linked Datasets -- CEDAR.
- Low Level Component Model Enabling Performance Portability of HPC Applications -- Christian Perez (Avalon)
- Domain Specific
- Thinking GRID for Electromagnetic Simulation of Oversized Structures -- Hervé Aubert (MINC-LAAS), Thierry Monteil (MRS-LAAS), Patricia Stolf (ASTRE-IRIT)
- Multi-parametric Intensive Stochastic Simulations for Hydrogeology -- Jocelyne Erhel (SAGE)