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Admission control in shared memory switches

Author

Listed:
  • Patrick Eugster

    (University of Lugano
    Purdue University
    TU Darmstadt)

  • Alex Kesselman

    (Google Inc.)

  • Kirill Kogan

    (IMDEA Networks Institute)

  • Sergey Nikolenko

    (National Research University Higher School of Economics
    Steklov Institute of Mathematics at St. Petersburg)

  • Alexander Sirotkin

    (National Research University Higher School of Economics)

Abstract

Cloud applications bring new challenges to the design of network elements, in particular the burstiness of traffic workloads. A shared memory switch is a good candidate architecture to exploit buffer capacity; in this work, we analyze the performance of this architecture. Our goal is to explore the impact of additional traffic characteristics such as varying processing requirements and packet values on objective functions. The outcome of this work is a better understanding of the relevant parameters for buffer management to achieve better performance in dynamic environments of data centers. We consider a model that captures more of the properties of the target architecture than previous work and consider several scheduling and buffer management algorithms that are specifically designed to optimize its performance. In particular, we provide analytic guarantees for the throughput performance of our algorithms that are independent from specific distributions of packet arrivals. We furthermore report on a comprehensive simulation study which validates our analytic results.

Suggested Citation

  • Patrick Eugster & Alex Kesselman & Kirill Kogan & Sergey Nikolenko & Alexander Sirotkin, 2018. "Admission control in shared memory switches," Journal of Scheduling, Springer, vol. 21(5), pages 533-543, October.
    • Handle: RePEc:spr:jsched:v:21:y:2018:i:5:d:10.1007_s10951-018-0564-2
    DOI: 10.1007/s10951-018-0564-2
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