Title :
Design of a Concentrated Torus Topology with Channel Buffers and Efficient Crossbars in NoCs
Author :
DiTomaso, Dominic ; Morris, Randy ; Jolley, Evan ; Sarathy, Ashwini ; Louri, Ahmed ; Kodi, Avinash
Author_Institution :
Electr. Eng. & Comput. Sci., Ohio Univ., Athens, OH, USA
Abstract :
Excess power dissipation along with increased leakage currents in router buffers and crossbars are becoming a major constraint that is affecting the performance of Network-on-Chips (NoCs) architectures. In this paper, we design channel buffers and router crossbars in a concentrated torus topology (CTorus) which is a dual network without the additional area overhead. When compared to other dual networks, CTorus improves saturation throughput by 11-20% for synthetic traffic and improves speedup by 1.78-2.15X for real benchmark traces such as PARSEC and SPEC CPU2006. When the energy-efficient buffer and crossbar organization was inserted into our CTorus topology, we reduced energy dissipation by 32% and area by 53% on average over mesh2X, CMesh2X and FBfly2X.
Keywords :
network routing; network topology; network-on-chip; power aware computing; CTorus topology; NoC architectures; PARSEC; SPEC CPU2006; channel buffer design; concentrated torus topology design; crossbar organization; dual network; energy dissipation reduction; energy-efficient buffer; leakage currents; network-on-chip architectures; power dissipation; real benchmark traces; router crossbar design; saturation throughput improvement; speedup improvement; synthetic traffic; Buffer storage; Network topology; Organizations; Ports (Computers); Repeaters; Resource management; Topology;
Conference_Titel :
Parallel and Distributed Processing Symposium Workshops & PhD Forum (IPDPSW), 2013 IEEE 27th International
Conference_Location :
Cambridge, MA
Print_ISBN :
978-0-7695-4979-8
DOI :
10.1109/IPDPSW.2013.273
