Author : Ajitesh Kumar 1
Date of Publication :22nd February 2018
Abstract: In Modern days, the real-time system plays an important role in our modern and digital society. The success of any real-time application totally depends upon the selection of optimal scheduling algorithm. In real time application, every task should have the nature of deadlines and time when they arrived, on the basis of these parameters we observe the response time of different scheduling algorithm then we select the optimal algorithm for a particular application. So in this paper, our aim is to reduce the complexity of real-time system researcher for selection of scheduling algorithm for a particular application. This model-based approach is an extent the state of any real-time system in the area of scheduling. This approach works in any uniprocessor system
Reference :
-
- Ranvijay, Rama shankar Yadavand Smriti “Efficient energy constrained scheduling approach for dynamic real time system”, First International Conference On Parallel, Distributed and Grid Computing (PDGC 2010)
- Mehrin Rouhifar and reza, “A servey on Scheduling algorithm Approaches for Hard real Time Systems ” IJCA December 2015.
- Robert. I, Davis, R and Burns A, “A Review of Fixed Priority and EDF Scheduling for Hard Real-Time Uniprocessor Systems”, EWiLi’13, August 26–27, 2013, Toulouse, FRANCE
- Lindh. F, Otnes. T, Wennerström. J, “Scheduling Algorithms for Real-Time Systems”.
- Davis, R. I. and Burns. A, “A Survey of Hard Real-Time Scheduling for Multiprocessor Systems”, ACM Computer Survey, Vol. 43, No.4, Article 35, 44 pages, 2011.
- Shamim Shiravi and Mostafa E. Salehi, “Fault Tolerant Task Scheduling Algorithm for Multicore Systems”, The 22nd Iranian Conference on Electrical Engineering (ICEE 2014), 2014, Shahid Beheshti University
- Sha L., Rajkumar R. and Lehoczky J. P., "Priority Inheritance Protocols: An Approach to Real Time Synchronization", IEEE Transactions on Computers 39(9), pp. 1175-1185, September 1990.
- G. E. Moore, "Cramming more components onto integrated circuits", Electronics, Vol. 38, No. 8, McGraw-Hill, 1965