Scheduling preemptable jobs on identical processors under varying availability of an additional continuous resource

Scheduling preemptable jobs on identical processors under varying availability of an additional continuous resource

In this work we consider a problem of scheduling preemptable, independent jobs, characterized by the fact that their processing speeds depend on the amounts of a continuous, renewable resource allocated to jobs at a time. Jobs are scheduled on parallel, identical machines, with the criterion of mini...

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Bibliographic Details
Published in:International journal of applied mathematics and computer science Vol. 26; no. 3; pp. 693 - 706
Main Authors: Rózycki, Rafal, Waligóra, Grzegorz, Weglarz, Jan
Format: Journal Article
Language:English
Published: Zielona Góra De Gruyter Open 01-09-2016
De Gruyter Poland
Sciendo
Subjects:
continuous resource
machine scheduling
makespan
mathematical programming
preemptable jobs
Online Access:Get full text
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Summary:In this work we consider a problem of scheduling preemptable, independent jobs, characterized by the fact that their processing speeds depend on the amounts of a continuous, renewable resource allocated to jobs at a time. Jobs are scheduled on parallel, identical machines, with the criterion of minimization of the schedule length. Since two categories of resources occur in the problem: discrete (set of machines) and continuous, it is generally called a discrete-continuous scheduling problem. The model studied in this paper allows the total available amount of the continuous resource to vary over time, which is a practically important generalization that has not been considered yet for discrete-continuous scheduling problems. For this model we give some properties of optimal schedules on a basis of which we propose a general methodology for solving the considered class of problems. The methodology uses a two-phase approach in which, firstly, an assignment of machines to jobs is defined and, secondly, for this assignment an optimal continuous resource allocation is found by solving an appropriate mathematical programming problem. In the approach various cases are considered, following from assumptions made on the form of the processing speed functions of jobs. For each case an iterative algorithm is designed, leading to an optimal solution in a finite number of steps.
ISSN:2083-8492
1641-876X
2083-8492
DOI:10.1515/amcs-2016-0048