K. C. andI. Foster and C. Kesselman, "Resource Co-Allocation in Computational Grids," in Proceedings of the Eighth IEEE International Symposium on High Performance Distributed Computing (HPDC-8), 1999, pp. 219--228.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....consisting of hundreds or thousands of standard CPUs have become very popular. In addition, recent work in computational and data grids [3, 15] enables applications to access resources in different and possibly widely dispersed locations simultaneously that is, to employ processor co allocation [12] to accomplish their goals, effectively creating single multicluster systems. Invariably, when scheduling parallel jobs in a single cluster, the utilization is well below 100 [17] even when enough load is offered to the system, because the jobs in execution may not leave enough processors idle ....

K. Czajkowski, I. Foster, and C. Kesselman. Resource CoAllocation in Computational Grids. In 8th IEEE Int'l Symp. on High Perf. Distrib. Comp., pages 219--228, 1999.

....multiple DAS clusters. Our current DAS scheduler (prun) only operates on single clusters, so for multi cluster scheduling we need a mechanism for co allocation of processors in different clusters at the same time. We are currently investigating the use of Globus with its support for co allocation [13] for this purpose. So far, we have implemented a simple interface between Globus and prun, and we have been able to submit and run two cluster jobs through Globus. An important feature of prun that facilitates co allocation is its support for reservations. We are planning to enhance the interface ....

K. Czajkowski, I. Foster, and C. Kesselman. Resource Co-Allocation in Computational Grids. In Proc. of the 8-th IEEE Int'l Syrup. on High Performance Distributed Computing, pages 219-228, Redondo Beach, CA, USA, July 1999.

....reservation framework can potentially be integrated into these environments, in order to bring end toend QoS guarantees into these services. In Globus Project, it has been argued that multi resource co allocation should be an integral part of the resource management architecture for the Grid [11,12]. In [11] a resource co allocation architecture and its mechanisms for allocation, configuration, monitoring, and control are presented. Our framework complements their architecture by introducing the QoS Resource Model and contention awareness. An advance resource reservation mechanism is ....

....framework can potentially be integrated into these environments, in order to bring end toend QoS guarantees into these services. In Globus Project, it has been argued that multi resource co allocation should be an integral part of the resource management architecture for the Grid [11,12] In [11], a resource co allocation architecture and its mechanisms for allocation, configuration, monitoring, and control are presented. Our framework complements their architecture by introducing the QoS Resource Model and contention awareness. An advance resource reservation mechanism is proposed in ....

K. Czajkowski, I. Foster and C. Kesselman, Resource co-allocation in Computational Grids, in: Proc. 8th IEEE Int. Symposium on High Performance Distributed Computing (HPDC '99) (1999).

....MPI jobs, and could be used in the framework. Genetic algorithms are being employed in grid schedulers [App01] and may be a useful extension to the framework. Advance reservations and co scheduling may be a promising method of meeting quality of service requirements for certain grid applications [Cza99]. Co scheduling is the simultaneous execution of a group of tasks. Grid resources like queueing systems require advance reservations to enable co scheduling. An advance reservation system may prove useful for extending the grid scheduling framework. 50 ....

Czajkowski, Karl, Ian Foster, and Carl Kesselman. "Resource Co-Allocation in Computational Grids". Proceedings of the 8 th IEEE Transactions on High-Performance Distributed Computing, pp. 219-228, 1999.

....reservation framework can potentially be integrated into these environments, in order to bring end to end QoS guarantees into these services. In Globus Project, it has been argued that multi resource co allocation should be an integral part of the resource management architecture for the Grid [11][12] In [11] a resource co allocation architecture and its mechanisms for allocation, con guration, monitoring, and control are presented. Our framework complements their architecture by introducing the QoS Resource Model and contention awareness. An advance resource reservation mechanism is ....

....framework can potentially be integrated into these environments, in order to bring end to end QoS guarantees into these services. In Globus Project, it has been argued that multi resource co allocation should be an integral part of the resource management architecture for the Grid [11] 12] In [11], a resource co allocation architecture and its mechanisms for allocation, con guration, monitoring, and control are presented. Our framework complements their architecture by introducing the QoS Resource Model and contention awareness. An advance resource reservation mechanism is proposed in ....

K. Czajkowski, I. Foster and C. Kesselman, Resource co-allocation in Computational Grids, in: Proc. 8th IEEE Intl. Symposium on High Performance Distributed Computing (HPDC '99), 1999.

....multiple DAS clusters. Our current DAS scheduler (prun) only operates on single clusters, so for multi cluster scheduling we need a mechanism for co allocation of processors in di erent clusters at the same time. We are currently investigating the use of Globus with its support for co allocation [13] for this purpose. So far, we have implemented a simple interface between Globus and prun, and we have been able to submit and run twocluster jobs through Globus. An important feature of prun that facilitates co allocation is its support for reservations. We are planning to enhance the interface ....

K. Czajkowski, I. Foster, and C. Kesselman. Resource Co-Allocation in Computational Grids. In Proc. of the 8-th IEEE Int'l Symp. on High Performance Distributed Computing, pages 219-228, Redondo Beach, CA, USA, July 1999.

....reservation success rate under different service request arrival rates. The results show that our algorithm constantly achieves higher overall success rate than the random algorithm. 5 Related Work The problem of multi resource reservation has been addressed from different angles. In [3] and [4] a resource co allocation architecture and its mechanisms for allocation, configuration, monitoring, and control are presented. It is suggested that resource co allocation should be an integral part of the resource management architecture for Grid environments. In addition, an advance ....

K. Czajkowski, I. Foster, and C. Kesselman. Resource coallocation in computational grids. Proceedings of IEEE HPDC-8, August 1999.

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K. C. andI. Foster and C. Kesselman, "Resource Co-Allocation in Computational Grids," in Proceedings of the Eighth IEEE International Symposium on High Performance Distributed Computing (HPDC-8), 1999, pp. 219--228.

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K. Czajkowski, I. Foster and C. Kesselman, "Resource CoAllocation in Computational Grids", in Proceedings of the 8th IEEE Int'l Symposium on High Performance of Distributed Computing (HPDC-8), 1999.

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K. Czajkowski, I. Foster, and C. Kesselman. Resource co-allocation in computational grids. In Proceedings of the Eighth IEEE International Symposium on High Performance Distributed Computing (HPDC-8), 1999.

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K. Czajkowski, I. Foster, and C. Kesselman, "Resource Co-allocation in Computational Grids," Proceedings of 8th IEEE International Symposium on High Performance Distributed Computing (HPDC 8), August 1999.

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K. Czajkowski, I. Foster, and C. Kesselman. Resource Co-Allocation in Computational Grids. In 8th IEEE Int'l Symp. on High Perf. Distrib. Comp., pages 219-- 228, 1999.

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K. Czajkowski, I. Foster, and C. Kesselman. Resource Co-Allocation in Computational Grids. In 8th IEEE Int'l Symp. on High Perf. Distrib. Comp., pages xxx--yyy, 1999.

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K. Czajkowski, I. Foster, and C. Kesselman. Resource CoAllocation in Computational Grids. In 8th IEEE Int'l Symp. on High Perf. Distrib. Comp., pages 219--228, 1999.

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K. Czajkowski, I. Foster, and C. Kesselman. Resource Co-Allocation in Computational Grids. In Proc. 8th IEEE Symp. on High Performance Distributed Computing, pages 219--228, 1999.

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Czajkowski, K., I. Foster and C. Kesselman (1999) Resource co-allocation in computational Grids. Proc. 8th Int. Symp. HPDC, 219-228.

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K. Czajkowski, I. Foster, and C. Kesselman. Resource CoAllocation in Computational Grids. In Proc. of the 8th IEEE Int'l Symp. on High Performance Distributed Computing (HPDC-8), pages 219--228, 1999.

No context found.

K. Czajkowski, I. Foster, and C. Kesselman. Resource CoAllocation in Computational Grids. In 8th IEEE Int'l Symp. on High Perf. Distrib. Comp., pages 219--228, 1999.

No context found.

K. Czajkowski, I. Foster, and C. Kesselman, "Resource Co-Allocation in Computational Grids," in Proceedings of the Eighth IEEE International Symposium on High Performance Distributed Computing. Redondo Beach, CA: IEEE Computer Society Press, Aug. 1999, pp. 219--228.

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