GPS-based scheduling algorithms, such as Weighted Fair Queueing, provide a popular mechanism for service differentiation among heterogeneous traffic classes.

GPS Scheduling: Selection of Optimal Weights and Comparison with Strict Priorities. P. Lieshout, M. Mandjes, S. Borst. CWI. P.O. Box 94079, 1090 GB Amsterdam ...

While the performance of GPS for given weights has been thoroughly examined, the problem of selecting weight values that maximize the traffic-carrying capacity, ...

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GPS scheduling: Selection of optimal weights and comparison with strict priorities. Journal: Performance Evaluation; Volume: 34; Pages (from-to): 75-86 ...

GPS scheduling: selection of optimal weights and comparison with strict priorities. In Proceedings of ACM SIGMETRICS / Performance (pp. 75–86). ACM ...

Dive into the research topics of 'GPS scheduling : selection of optimal weights and comparison with strict priorities'. Together they form a unique fingerprint.

Apr 25, 2024 · GPS scheduling: selection of optimal weights and comparison with strict priorities. SIGMETRICS/Performance 2006: 75-86. [c1]. view. electronic ...

Kenneth C. Sevcik Outstanding Student Paper Award: "GPS Scheduling: Selection of Optimal Weights and Comparison with Strict Priorities" by Pascal Lieshout ( ...

Fair queuing is a mechanism in network devices that assigns priorities to queues, ensuring that high-priority traffic flows are processed first.