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Autonomous Multi-Dimensional Slicing for Large-Scale Distributed Systems
Auteur(s)
Pasquet, Mathieu
Maia, Francisco
Maison d'édition
: Springer
Date de parution
2014-6-4
De la page
141
A la page
155
Résumé
Slicing is a distributed systems primitive that allows to autonomously partition a large set of nodes based on node-local attributes. Slicing is decisive for automatically provisioning system resources for different services, based on their requirements or importance. One of the main limitations of existing slicing protocols is that only single dimension attributes are considered for partitioning. In practical settings, it is often necessary to consider best compromises for an ensemble of metrics.
In this paper we propose an extension of the slicing primitive that allows multi-attribute distributed systems slicing.Our protocol employs a gossip-based approach that does not require centralized knowledge and allows self-organization. It leverages the notion of domination between nodes, forming a partial order between multi-dimensional points, in a similar way to SkyLine queries for databases. We evaluate and demonstrate the interest of our approach using large-scale simulations.
In this paper we propose an extension of the slicing primitive that allows multi-attribute distributed systems slicing.Our protocol employs a gossip-based approach that does not require centralized knowledge and allows self-organization. It leverages the notion of domination between nodes, forming a partial order between multi-dimensional points, in a similar way to SkyLine queries for databases. We evaluate and demonstrate the interest of our approach using large-scale simulations.
Notes
, 2014
Nom de l'événement
DAIS'14: The 14th International IFIP Conference on Distributed Applications and Interoperable Systems
Lieu
Berlin, Germany
Identifiants
Autre version
http://link.springer.com/chapter/10.1007%2F978-3-662-43352-2_12
Type de publication
conference paper
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