Title :
OutFlank Routing: Increasing Throughput in Toroidal Interconnection Networks
Author :
Versaci, Francesco
Author_Institution :
Res. Group for Parallel Comput., Vienna Inst. of Technol., Vienna, Austria
Abstract :
We present a new, deadlock-free, routing scheme for toroidal interconnection networks, called OutFlank Routing (OFR). OFR is an adaptive strategy which exploits non-minimal links, both in the source and in the destination nodes. When minimal links are congested, OFR deroutes packets to carefully chosen intermediate destinations, in order to obtain travel paths which are only an additive constant longer than the shortest ones. Since routing performance is very sensitive to changes in the traffic model or in the router parameters, an accurate discrete-event simulator of the toroidal network has been developed to empirically validate OFR, by comparing it against other relevant routing strategies, over a range of typical real-world traffic patterns. On the 16×16×16 (4096 nodes) simulated network OFR exhibits improvements of the maximum sustained throughput between 14% and 114%, with respect to Adaptive Bubble Routing.
Keywords :
discrete event simulation; multiprocessor interconnection networks; network routing; 16×16×16 simulated network; OFR validation; OutFlank routing; adaptive bubble routing; deadlock-free routing scheme; minimal link congestion; nonminimal link exploitation; packet derouting; real-world traffic patterns; routing performance; routing strategies; toroidal interconnection networks; toroidal network discrete-event simulator; traffic model; Adaptive systems; Bandwidth; Multiprocessor interconnection; Network topology; Routing; System recovery; Throughput; Adaptive routing; High performance computing; Interconnection networks; Routing; Toroidal networks;
Conference_Titel :
Parallel and Distributed Systems (ICPADS), 2013 International Conference on
Conference_Location :
Seoul
DOI :
10.1109/ICPADS.2013.40
