@Misc{Supelec690,
author = {Constantinos Makassikis},
title = {{A Skeletal-Based Approach for the Development of Fault-Tolerant SPMD Applications}},
year = {2010},
month = {dec},
note = {Seconde journée du groupe de travail LaMHA},
annote = {Présentation de travaux de thèse},
url = {http://tesson.julien.free.fr/LaHMA/makassikis_lamha2010.pdf},
abstract = {Distributing applications over PC clusters to speed-up or size-up is now commonplace. Yet effectively tolerating faults of these systems is a major issue. To ease the addition of checkpoint-based fault tolerance at the application level, we introduce a Model for Low-Overhead Tolerance of Faults (MoLOToF) which is based on structuring applications using fault-tolerant algorithmic skeletons. The application of MoLOToF to some family of SPMD parallel algorithms termed GReLoSSS (i.e.: Globally Relaxed Locally Strict Synchronization SPMD is a relaxed variation of BSP) resulted in the FT-GReLoSSS framework. In this talk I will present both MoLOToF and FT-GReLoSSS as well as some experimental evaluation results.}
}