{"title":"Accrual Based Scheduling for Cloud in Single and Multi Resource System: Study of Three Techniques","authors":"R. Santhosh, T. Ravichandran","volume":99,"journal":"International Journal of Computer and Information Engineering","pagesStart":848,"pagesEnd":854,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/10002757","abstract":"This paper evaluates the accrual based scheduling for\r\ncloud in single and multi-resource system. Numerous organizations\r\nbenefit from Cloud computing by hosting their applications. The\r\ncloud model provides needed access to computing with potentially\r\nunlimited resources. Scheduling is tasks and resources mapping to a\r\ncertain optimal goal principle. Scheduling, schedules tasks to virtual\r\nmachines in accordance with adaptable time, in sequence under\r\ntransaction logic constraints. A good scheduling algorithm improves\r\nCPU use, turnaround time, and throughput. In this paper, three realtime\r\ncloud services scheduling algorithm for single resources and\r\nmultiple resources are investigated. Experimental results show\r\nResource matching algorithm performance to be superior for both\r\nsingle and multi-resource scheduling when compared to benefit first\r\nscheduling, Migration, Checkpoint algorithms.","references":"[1] Salot, P. (2013). A survey of various scheduling algorithm in cloud\r\ncomputing environment. International Journal of research and\r\nengineering Technology (IJRET), ISSN, 2319-1163.\r\n[2] Nikshape, S. S., & Deepak, S. S. Delivering Of Real Time Services\r\nthrough Internet Protocol Using Cloud Computing.\r\n[3] Jeffay, K., Stanat, D. F., & Martel, C. U. (1991, December). On nonpreemptive\r\nscheduling of period and sporadic tasks. In Real-Time\r\nSystems Symposium, 1991. Proceedings, Twelfth (pp. 129-139). IEEE.\r\n[4] Jejurikar, R. (2005, July). Energy aware non-preemptive scheduling for\r\nhard real-time systems. In Real-Time Systems, 2005.(ECRTS 2005).\r\nProceedings. 17th Euromicro Conference on (pp. 21-30). IEEE.\r\n[5] http:\/\/www.personal.kent.edu\/~rmuhamma\/OpSystems\/Myos\/cpuSched\r\nuling.htm\r\n[6] Bouguerra, M. S., Kondo, D., & Trystram, D. (2011, May). On the\r\nscheduling of checkpoints in desktop grids. In Cluster, Cloud and Grid\r\nComputing (CCGrid), 2011 11th IEEE\/ACM International Symposium\r\non (pp. 305-313). IEEE.\r\n[7] Nguyen, D., & Thoai, N. (2012, May). Ebc: Application-level migration\r\non multi-site cloud. In Systems and Informatics (ICSAI), 2012\r\nInternational Conference on (pp. 876-880). IEEE.\r\n[8] Santhosh, R., & Ravichandran, T. (2013, February). Pre-emptive\r\nscheduling of on-line real time services with task migration for cloud computing. In Pattern Recognition, Informatics and Mobile Engineering\r\n(PRIME), 2013 International Conference on (pp. 271-276). IEEE.\r\n[9] Huang, Q., Su, S., Xu, S., Li, J., Xu, P., & Shuang, K. (2013, July).\r\nMigration-based elastic consolidation scheduling in cloud data center. In\r\nDistributed Computing Systems Workshops (ICDCSW), 2013 IEEE\r\n33rd International Conference on (pp. 93-97). IEEE.\r\nGhribi, C., Hadji, M., & Zeghlache, D. (2013, May). Energy efficient\r\nVM scheduling for cloud data centers: exact allocation and migration\r\nalgorithms. InCluster, Cloud and Grid Computing (CCGrid), 2013 13th\r\nIEEE\/ACM International Symposium on (pp. 671-678). IEEE.\r\n[10] Melo, M., Araujo, J., Matos, R., Menezes, J., & Maciel, P. (2013,\r\nOctober). Comparative Analysis of Migration-Based Rejuvenation\r\nSchedules on Cloud Availability. In Systems, Man, and Cybernetics\r\n(SMC), 2013 IEEE International Conference on (pp. 4110-4115). IEEE.\r\n[11] Shamsinezhad, E., Shahbahrami, A., Hedayati, A., Zadeh, A. K., &\r\nBanirostam, H. (2013). Presentation Methods for Task Migration in\r\nCloud Computing by Combination of Yu Router and Post-Copy.\r\n[12] Santhosh, R., & Ravichandran, T. (2014). Task Scheduling for Online\r\nReal Time Services with Multiple Resources Using RM Algorithm for\r\nCloud Computing. Australian Journal of Basic & Applied Sciences.\r\n[13] PM, M. S., & Venkatesh, K. A New Optimal Checkpoint Restart Model.\r\n[14] Sharma, R. (2012, August). Task Migration with EDF-RM Scheduling\r\nAlgorithms in Distributed System. In Advances in Computing and\r\nCommunications (ICACC), 2012 International Conference on (pp. 182-\r\n185). IEEE.\r\n[15] Singh, D., Singh, J., & Chhabra, A. (2012). Evaluating overheads of\r\nintegrated multilevel checkpointing algorithms in cloud computing\r\nenvironment\u201d. IJ Computer Network and Information Security, 5, 29-38.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 99, 2015"}