Journal of Parallel and Distributed Computing
A taxonomy and survey of grid resource management systems for distributed computing
Software—Practice & Experience
A decoupled scheduling approach for Grid application development environments
Journal of Parallel and Distributed Computing - Special issue on computational grids
Software—Practice & Experience
Fair Scheduling Algorithms in Grids
IEEE Transactions on Parallel and Distributed Systems
Fair resource sharing in hierarchical virtual organizations for global grids
GRID '07 Proceedings of the 8th IEEE/ACM International Conference on Grid Computing
Distributed and Parallel Systems: From Cluster to Grid Computing
Distributed and Parallel Systems: From Cluster to Grid Computing
Two experiments with application-level quality of service on the EGEE grid
Proceedings of the 2nd workshop on Grids meets autonomic computing
Issues and scenarios for self-managing grid middleware
Proceedings of the 2nd workshop on Grids meets autonomic computing
Job-resource matchmaking on Grid through two-level benchmarking
Future Generation Computer Systems
Efficient data consolidation in grid networks and performance analysis
Future Generation Computer Systems
Glueing grids and clouds together: a service-oriented approach
International Journal of Web and Grid Services
A semantic impact in decentralized resource discovery mechanism for grid computing environments
ICA3PP'12 Proceedings of the 12th international conference on Algorithms and Architectures for Parallel Processing - Volume Part II
An analysis of unit tests of a flight software product line
Science of Computer Programming
A fuzzy Grid-QoS framework for obtaining higher grid resources availability
The Journal of Supercomputing
Hi-index | 0.00 |
We describe our experiences from implementing and integrating a new job scheduling algorithm in the gLite Grid middleware and present experimental results that compare it to the existing gLite scheduling algorithms. It is the first time that gLite scheduling algorithms are put under test and compared with a new algorithm under the same conditions. We describe the problems that were encountered and solved, going from theory and simulations to practice and the actual implementation of our scheduling algorithm. In this work we also describe the steps one needs to follow in order to develop and test a new scheduling algorithm in gLite. We present the methodology followed and the testbed that was set up for the comparisons. Our research sheds light on some of the problems of the existing gLite scheduling algorithms and makes clear the need for the development of new.