Title :
Worst-case delay bounds for uniform load-balanced switch fabrics
Author :
Antonakopoulos, Spyridon ; Fortune, Steven ; McLellan, Rae ; Zhang, Leiqi
Author_Institution :
Google, New York, NY, USA
Abstract :
Numerous solutions have been proposed in the literature to eliminate reordering in load-balanced switch fabrics. A common approach involves uniform frames, in which every cell of a frame has the same destination. This can achieve 100% throughput with relatively small average traffic delay; however, the worst-case delay may be unbounded. We show that with a slight speedup in the switch fabric we can guarantee satisfactory worst-case delay bounds, without sacrificing other desirable properties. Furthermore, experimental results demonstrate that our scheme improves worst-case delay in realistic traffic scenarios, as compared to previous uniform-frame solutions.
Keywords :
delays; resource allocation; telecommunication network routing; telecommunication switching; small average traffic delay; uniform frames; uniform load-balanced switch fabrics; worst-case delay bounds; Bandwidth; Delays; Fabrics; Optical switches; Routing; Scheduling;
Conference_Titel :
Communications (ICC), 2013 IEEE International Conference on
Conference_Location :
Budapest
DOI :
10.1109/ICC.2013.6655146
