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Abhinav Srivastava, Rituraj Rathore & Raksha Sharma

Figure 3: Comparison between HCCG with AFJS and DJGBSDA

Figure 4: HCCG Scheduling Snapshot for No. of Jobs=100

CONCLUSIONS AND FUTURE WORK High compaction coarse-grained scheduling strategy was proved to be effective in terms of resource utilization. This was due to its ability to have a global vision on the resources requirements for the whole set of jobs and scheduling jobs in groups. The simulation environment had shown that the proposedmodel is able to achieve the mentioned objectives in gridenvironment. Results of the comparative study shows that the proposed HCCG gives better performance than AFJS and DJGBSDA in terms of processing time. In future, this work can be extended to design a parallelscheduler in grid system to realize its performance.

REFERENCES 1.

Foster, I. and Kesselman, C. Computation Grids. Foster, I. and Kesselman, C. eds. The Grid: Blueprint for a New ComputingInfrastructure, Morgan Kaufmann, 1999, 2-48.

2.

RajkumarBuyya and Anthony Sulistio, Service and Utility Oriented Distributed Computing Systems: Challenges andOpportunities for Modeling and Simulation Communities.

34 high compaction full  

Grid computing is the federation of computer resources from multiple administrative domains to reach a common goal. The Main focus is on Uni...

34 high compaction full  

Grid computing is the federation of computer resources from multiple administrative domains to reach a common goal. The Main focus is on Uni...

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