Title :
Static dispatching with internal backpressure scheme for SMM Clos-network switches
Author :
Kleban, J. ; Suszynska, Urszula
Author_Institution :
Fac. of Electron. & Telecommun., Poznan Univ. of Technol., Poznan, Poland
Abstract :
Different Clos-network architectures in terms of buffer allocation were proposed in papers: SSS (Space-Space-Space), MMM (Memory-Memory-Memory), MSM (Memory-Space-Memory), and SMM (Space-Memory-Memory). The most investigated architectures are SSS and MSM. This paper deals with the packet-dispatching scheme based on static connection patterns and internal backpressure signals for the SMM Clos-network switches, where the second and third stages are made of crosspoint queued (CQ) switches. The proposed dispatching scheme is called SDIB (Static Dispatching with Internal Backpressure). Simulation results show that proposed algorithm delivers very good performance in terms of throughput, cell delay and input buffers size, under different traffic distribution patterns, for both Bernoulli and bursty traffic.
Keywords :
memory architecture; packet switching; switches; switching networks; telecommunication traffic; Bernoulli traffic; CQ switches; MMM; MSM; SDIB; SMM; SMM Clos-network switches; SSS; buffer allocation; bursty traffic; crosspoint queued switches; memory-memory-memory paper; memory-space-memory paper; packet-dispatching scheme; space-memory-memory paper; space-space-space paper; static connection pattern; static dispatching with internal backpressure; traffic distribution pattern; Ports (Computers); Switches; Clos-network; Dispatching Algorithm; Packet Scheduling; Packet Switching;
Conference_Titel :
Computers and Communications (ISCC), 2013 IEEE Symposium on
Conference_Location :
Split
DOI :
10.1109/ISCC.2013.6755022