Do flow principles of operations management apply to computing centres?
Détails
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ID Serval
serval:BIB_DCB363C3E04D
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Do flow principles of operations management apply to computing centres?
Périodique
Production Planning & Control
ISSN
0953-7287
Statut éditorial
Publié
Date de publication
2015
Peer-reviewed
Oui
Volume
26
Numéro
4
Pages
249-264
Langue
anglais
Notes
This research has been supported by the Swiss National Science Foundation (FNS) under Grant No. 100018-144099.
Résumé
By analysing large data-sets on jobs processed in major computing centres, we study how operations management principles apply to these modern day processing plants. We show that Little's Law on long-term performance averages holds
to computing centres, i.e. work-in-progress equals throughput rate multiplied by process lead time. Contrary to traditional
manufacturing principles, the law of variation does not hold to computing centres, as the more variation in job lead
times the better the throughput and utilisation of the system. We also show that as the utilisation of the system increases
lead times and work-in-progress increase, which complies with traditional manufacturing. In comparison with current
computing centre operations these results imply that better allocation of jobs could increase throughput and utilisation,
while less computing resources are needed, thus increasing the overall efficiency of the centre. From a theoretical point
of view, in a system with close to zero set-up times, as in the case of computing centres, the law of variation does not
hold. We observe that the more variation in job lead times and resource usage, the higher the throughput of the system.
to computing centres, i.e. work-in-progress equals throughput rate multiplied by process lead time. Contrary to traditional
manufacturing principles, the law of variation does not hold to computing centres, as the more variation in job lead
times the better the throughput and utilisation of the system. We also show that as the utilisation of the system increases
lead times and work-in-progress increase, which complies with traditional manufacturing. In comparison with current
computing centre operations these results imply that better allocation of jobs could increase throughput and utilisation,
while less computing resources are needed, thus increasing the overall efficiency of the centre. From a theoretical point
of view, in a system with close to zero set-up times, as in the case of computing centres, the law of variation does not
hold. We observe that the more variation in job lead times and resource usage, the higher the throughput of the system.
Mots-clé
Little's Law, operations management principles, computing centres
Web of science
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Création de la notice
24/03/2014 17:59
Dernière modification de la notice
20/08/2019 16:01