Open AccessSELF OPTIMIZING KERNEL WITH HYBRID SCHEDULING ALGORITHM
Author(s) -
Amol Vengurlekar,
Anish Shah,
Avichal Karia,
D J. Sanghavi
Publication year - 2013
Publication title -
international journal of electronic signal and systems
Language(s) - English
Resource type - Journals
ISSN - 2231-5969
DOI - 10.47893/ijess.2013.1141
Subject(s) - computer science , context switch , fair share scheduling , round robin scheduling , rate monotonic scheduling , scheduling (production processes) , two level scheduling , dynamic priority scheduling , distributed computing , algorithm , mathematical optimization , embedded system , operating system , mathematics , schedule
In this paper an operating system with a unique Hybrid scheduling algorithm (HSA) is proposed. The HSA incorporates the scheduling policies of both Round robin and priority based scheduling techniques along with a smart kernel which will self-optimize the system by providing a variable time slice to the tasks. The objective of developing this operating system is to improve the system efficiency and with an optimized usage of the resources available for the tasks, radically in terms of context switches and average waiting time.