A smart intuitionistic fuzzy-based framework for round-robin short-term scheduler

A smart intuitionistic fuzzy-based framework is designed to facilitate adaptability by providing continuous changes in the size of time slice to scheduler at run time. The present work models a round-robin scheduler with its imprecise parameters. To manage the impreciseness among parameters and to i...

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Veröffentlicht in:	The Journal of supercomputing 2022-03, Vol.78 (4), p.4655-4679
Hauptverfasser:	Raheja, Supriya, Alshehri, Mohammed, Mohamed, Ahmed A., Khaitan, Supriya, Kumar, Manoj, Stephan, Thompson
Format:	Artikel
Sprache:	eng
Schlagworte:	Compilers Computer Science Design of experiments Hybrid systems Inference Interpreters Parameters Performance enhancement Processor Architectures Programming Languages Scheduling Switches
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container_title	The Journal of supercomputing
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creator	Raheja, Supriya Alshehri, Mohammed Mohamed, Ahmed A. Khaitan, Supriya Kumar, Manoj Stephan, Thompson
description	A smart intuitionistic fuzzy-based framework is designed to facilitate adaptability by providing continuous changes in the size of time slice to scheduler at run time. The present work models a round-robin scheduler with its imprecise parameters. To manage the impreciseness among parameters and to improve the performance, an intuitionistic fuzzy-based round-robin scheduler is implemented. IFRR scheduler integrates the two components, namely intuitionistic fuzzy inference system and hybrid round-robin scheduling approach. Intuitionistic fuzzy inference system is implemented to handle the impreciseness of burst time to provide a dynamic time slice to scheduler, whereas hybrid round-robin scheduling approach is used to make a decision on selection of next task to run. The prove the performance, the proposed scheduler is compared with the other baseline round-robin schedulers. The results prove the efficiency of scheduler in terms of average waiting time, average turnaround time, average normalized turnaround time, and number of context switches.
doi_str_mv	10.1007/s11227-021-04052-4
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subjects	Compilers Computer Science Design of experiments Hybrid systems Inference Interpreters Parameters Performance enhancement Processor Architectures Programming Languages Scheduling Switches
title	A smart intuitionistic fuzzy-based framework for round-robin short-term scheduler
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