• Title of article

    Efficient fair algorithms for message communication

  • Author/Authors

    Gorinsky، نويسنده , , Sergey and Friedman، نويسنده , , Eric J. and Henderson، نويسنده , , Shane and Jechlitschek، نويسنده , , Christoph، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    15
  • From page
    513
  • To page
    527
  • Abstract
    A computer network serves distributed applications by communicating messages between their remote ends. Many such applications desire minimal delay for their messages. Beside this efficiency objective, allocation of the network capacity is also subject to the fairness constraint of not shutting off communication for any individual message. Processor Sharing (PS) is a de facto standard of fairness but provides significantly higher average delay than Shortest Remaining Processing Time (SRPT), which is an optimally efficient but unfair algorithm. In this paper, we explore efficient fair algorithms for message communication where fairness means that no message is delivered later than under PS. First, we introduce a slack system to characterize fair algorithms completely and develop efficient fair algorithms called Pessimistic Fair Sojourn Protocol (PFSP), Optimistic Fair Sojourn Protocol (OFSP), and Shortest Fair Sojourn (SFS). Then, we prove that a fair online algorithm does not assure minimal average delay attainable with fairness. Our analysis also reveals lower bounds on worst-case inefficiency of fair algorithms. We conduct extensive simulations for various distributions of message sizes and arrival times. During either temporary overload or steady-state operation, SFS and other newly proposed fair algorithms support SRPT-like efficiency and consistently provide much smaller average delay than PS.
  • Keywords
    Efficient message communication , Capacity allocation , Minimal average delay , Fair algorithm , Slack system
  • Journal title
    Simulation Modelling Practice and Theory
  • Serial Year
    2009
  • Journal title
    Simulation Modelling Practice and Theory
  • Record number

    1581303