Title :
Deficit Round Robin with network calculus
Author :
Boyer, Marc ; Stea, Giovanni ; Sofack, William Mangoua
Author_Institution :
ONERA - The French Aerosp. Lab., Toulouse, France
Abstract :
Generalised Processor Sharing (GPS) is a wellknown ideal service policy designed to share the capacity of a server among the input flows fairly: each backlogged flow receives a pre-defined fraction of the total server capacity, according to its weight. Several practical implementations of GPS have been proposed, among which Deficit Round Robin (DRR) is widely deployed since it can be implemented in a very efficient way. The worst-case performance of DRR has been studied by several papers, all of which assume that the shared server has a constant rate. This paper studies DRR using Network Calculus, under very general assumptions. Latency results that generalise all the previous works are derived, and a residual service is derived from DRR parameters. This residual service is shown to be as good as or even better than previous studies when restricting it to the same assumptions.
Keywords :
embedded systems; network theory (graphs); scheduling; telecommunication services; DRR parameters; GPS; backlogged flow; deficit round robin; generalised processor sharing; ideal service policy; network calculus; predefined fraction; residual service; server capacity; worst-case performance; Servers;
Conference_Titel :
Performance Evaluation Methodologies and Tools (VALUETOOLS), 2012 6th International Conference on
Conference_Location :
Cargese
Print_ISBN :
978-1-4673-4887-4
