Title :
Workflow Resiliency for Large-Scale Distributed Applications
Author :
Nguyen, Thin ; Desideri, J.-A. ; Selmin, Vittorio
Author_Institution :
Centre de Rech. Grenoble Rhone-Alpes, INRIA, St. Ismier, France
Abstract :
Large-scale simulation and optimization are demanding applications that require high-performance computing platforms. Because their economic impact is fundamental to the industry, they also require robust, seamless and effective mechanisms to support dynamic user interactions, as well as fault-tolerance and resiliency on parallel computing platforms. Distributed workflows are considered here as a means to support large-scale dynamic and resilient multiphysics simulation and optimization applications, such as multiphysics aircraft simulation.
Keywords :
aerospace simulation; economics; fault tolerance; optimisation; parallel processing; workflow management software; aircraft simulation; distributed workflows; economic impact; fault-tolerance; large-scale distributed applications; large-scale simulation; optimization; parallel computing; workflow resiliency; Aerodynamics; Computational modeling; Computer applications; Computer industry; Design optimization; Distributed computing; Large-scale systems; Resumes; Robustness; Synchronization; distributed computing; large-scale applications; parallel computing; resiliency; workflows;
Conference_Titel :
Advanced Engineering Computing and Applications in Sciences, 2009. ADVCOMP '09. Third International Conference on
Conference_Location :
Sliema
Print_ISBN :
978-1-4244-5082-4
Electronic_ISBN :
978-0-7695-3829-7
DOI :
10.1109/ADVCOMP.2009.9
