Title :
Cycle time distribution and control for the Deficit Round Robin packet scheduler
Author :
Chang, Gary ; Lee, C.C.
fDate :
Jan. 30 2012-Feb. 2 2012
Abstract :
Deficit Round Robin (DRR) is a widely implemented packet scheduling algorithm for providing throughput fairness among competing traffic flows in a router. However, its original form may yield poor response times for short-lived flows when the load is heavy. In this paper, we derive the probability distribution of the DRR cycle time, which is key to response times experienced by short-lived flows, with the aids of Renewal Theory and Central Limit Theorem. To utilize the analytical results on DRR cycle time, we then present a mechanism that adjusts the DRR service quanta offered to active traffic flows such that the DRR cycle time is contained. As a result, the response times for short-lived flows can be protected at a desired statistical level. Simulation results demonstrate the accuracy of the Gaussian DRR cycle time distribution as well as the significant improvements achieved by adjusting the quanta.
Keywords :
Gaussian processes; adaptive control; scheduling; statistical distributions; telecommunication congestion control; telecommunication traffic; DRR cycle time; DRR service quanta; Gaussian DRR cycle time distribution; active traffic flows; central limit theorem; cycle time control; deficit round Robin packet scheduling algorithm; probability distribution; renewal theory; response times; router traffic flows; throughput fairness; Approximation methods; Delay; Markov processes; Probability distribution; Steady-state; Throughput; Time factors;
Conference_Titel :
Computing, Networking and Communications (ICNC), 2012 International Conference on
Conference_Location :
Maui, HI
Print_ISBN :
978-1-4673-0008-7
Electronic_ISBN :
978-1-4673-0723-9
DOI :
10.1109/ICCNC.2012.6167459
