Vestnik Sankt-Peterburgskogo Universiteta. Seriya 10. Prikladnaya Matematika. Informatika. Protsessy Upravleniya
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Vestnik Sankt-Peterburgskogo Universiteta. Seriya 10. Prikladnaya Matematika. Informatika. Protsessy Upravleniya, 2016, Issue 4, Pages 51–65
DOI: https://doi.org/10.21638/11701/spbu10.2016.405
(Mi vspui310)
 

This article is cited in 1 scientific paper (total in 1 paper)

Computer science

Scheduling problem to minimize the maximum lateness for parallel processors

N. S. Grigoreva

St. Petersburg State University, 7–9, Universitetskaya nab., St. Petersburg, 199034, Russian Federation
Full-text PDF (311 kB) Citations (1)
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Abstract: The problem of minimizing the maximum lateness while scheduling tasks to parallel identical processors is a classical combinatorial optimization problem. It has many applications, and it is NP-hard. This problem relates to the scheduling problem and it is denoted by $P|r_j |L_{\mathrm{max}}$. The multiprocessor scheduling problem is defined as follows: tasks have to be executed on several parallel identical processors. We must find where and when each task will be executed, such that the maximum lateness is minimum. The duration, release time and due date of each task are known. Preemption on processors is not allowed. A lot of research in scheduling has concentrated on the construction of the nondelay schedule. A nondelay schedule is a feasible schedule in which no processor is kept idle at a time when it could begin processing a task. An inserted idle time schedule (IIT) as a feasible schedule in which the processor is kept idle at a time when it could begin processing a task. The goal of this paper is to propose an IIT schedule for the $P|r_j |L_{\rm max}$ problem. We propose an approximate IIT algorithm named ELS/IIT (earliest latest start/ inserted idle time) and depth first branch and bound algorithm, which produces a feasible IIT (inserted idle time) schedule for a fixed maximum lateness $L$. The algorithm may be used in a binary search mode to find the smallest maximum lateness. The branch and bound algorithm is based on the earliest latest start/ inserted idle time branching strategy. Two new dominance criterions between decision nodes are used. A new method for evaluating unfeasible partial solutions was designed. To illustrate the effectiveness of this approach we tested algorithms on instances, which were randomly generated with the number of jobs from 50 to 300. Refs 14. Tables 5.
Keywords: parallel identical processors, branch and bound algorithm, maximum lateness.
Received: March 9, 2016
Accepted: September 29, 2016
Bibliographic databases:
Document Type: Article
UDC: 519.8
Language: Russian
Citation: N. S. Grigoreva, “Scheduling problem to minimize the maximum lateness for parallel processors”, Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2016, no. 4, 51–65
Citation in format AMSBIB
\Bibitem{Gri16}
\by N.~S.~Grigoreva
\paper Scheduling problem to minimize the maximum lateness for parallel processors
\jour Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr.
\yr 2016
\issue 4
\pages 51--65
\mathnet{http://mi.mathnet.ru/vspui310}
\crossref{https://doi.org/10.21638/11701/spbu10.2016.405}
\elib{https://elibrary.ru/item.asp?id=28173686}
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  • This publication is cited in the following 1 articles:
    Citing articles in Google Scholar: Russian citations, English citations
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