Scalable and Fault Tolerant Hierarchical B&B Algorithm for Computational Grids

dc.contributor.authorBendjoudi, Ahcène
dc.date.accessioned2016-05-25T13:39:05Z
dc.date.available2016-05-25T13:39:05Z
dc.date.issued2012-06-07
dc.description.abstractSolving to optimality large instances of combinatorial optimization problems using Branch and Bound (B&B) algorithms requires a huge amount of computing resources. Nowadays, such power is provided by large scale environments such as computational grids. However, grids induce new challenges: scalability, heterogeneity, and fault tolerance. Most of existing grid-based B&Bs are developed using the Master-Worker paradigm, their scalability is therefore limited. Moreover fault tolerance is rarely addressed in these works. In this thesis, we propose three main contributions to deal with these issues: P2P-B&B, H-B&B, and FTH-B&B. P2P-B&B is a MW-based B&B framework which deals with scalability by reducing the task request frequency and enabling direct communication between workers. H-B&B also deals with scala- bility. Unlike the state-of-the-art approaches, H-B&B is fully dynamic and adaptive, meaning it takes into account the dynamic acquisition of new computing resources. FTH-B&B is based on new fault tolerant mechanisms enabling efficient building of the hierarchy and maintainingits balancing, and minimizing of work redundancy when storing and recovering tasks. The proposed approaches have been implemented using ProActive grid-middleware and applied to the Flow-Shop scheduling Problem (FSP). The large scale experiments performed on Grid’5000 proved the efficiency of the proposed approaches.fr_FR
dc.identifier.urihttp://dl.cerist.dz/handle/CERIST/809
dc.relation.ispartofThèses de Doctorat
dc.relation.placeUniversité de Béjaïafr_FR
dc.specialityHigh Performance Computingfr_FR
dc.specialityComputer Sciencefr_FR
dc.specialityCombinatorial Optimizationfr_FR
dc.structureCalcul pervasif et mobile (Pervasive and Mobile Computing group)fr_FR
dc.subjectParallel B&Bfr_FR
dc.subjectMaster-Workerfr_FR
dc.subjectHierarchical Master-Workerfr_FR
dc.subjectFault Tolerancefr_FR
dc.subjectGrid Computingfr_FR
dc.subjectLarge Scale Experimentfr_FR
dc.subjectFSPfr_FR
dc.subjectProActivefr_FR
dc.subjectGrid’5000fr_FR
dc.titleScalable and Fault Tolerant Hierarchical B&B Algorithm for Computational Gridsfr_FR
dc.typeThesis
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