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Queueing Systems

Erschienen in:

17.02.2021

Large-scale parallel server system with multi-component jobs

verfasst von: Seva Shneer, Alexander L. Stolyar

Erschienen in: Queueing Systems | Ausgabe 1-2/2021

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Abstract

A broad class of parallel server systems is considered, for which we prove the steady-state asymptotic independence of server workloads, as the number of servers goes to infinity, while the system load remains sub-critical. Arriving jobs consist of multiple components. There are multiple job classes, and each class may be of one of two types, which determines the rule according to which the job components add workloads to the servers. The model is broad enough to include as special cases some popular queueing models with redundancy, such as cancel-on-start and cancel-on-completion redundancy. Our analysis uses mean-field process representation and the corresponding mean-field limits. In essence, our approach relies almost exclusively on three fundamental properties of the model: (a) monotonicity, (b) work conservation and (c) the property that, on average, “new arriving workload prefers to go to servers with lower workloads.”

Vorheriger Artikel On scale functions for Lévy processes with negative phase-type jumps

Nächster Artikel Heavy traffic queue length scaling in switches with reconfiguration delay

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Titel: Large-scale parallel server system with multi-component jobs
verfasst von: Seva Shneer
Alexander L. Stolyar
Publikationsdatum: 17.02.2021
Verlag: Springer US
Erschienen in: Queueing Systems / Ausgabe 1-2/2021
Print ISSN: 0257-0130
Elektronische ISSN: 1572-9443
DOI: https://doi.org/10.1007/s11134-021-09686-y

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