Author_Institution :
Oregon State Univ., Corvallis, OR, USA
Abstract :
Summary form only given. Interconnection topology plays a major role in achieving high performance in parallel systems. In the past, many interconnection topologies have been proposed - some most popular being hypercube, torus, mesh, De Bruijn networks, etc. Recently, some efficient interconnection topologies called Gaussian networks and Eisenstein-Jacobi networks have been introduced. The topologies of these networks are based on the concepts of Gaussian and EJ integers. In this talk, first a brief overview of these number theory concepts including how to obtain modulo of a given Gaussian or EJ number is given. Then, the interconnection topology, the topological properties, Hamiltonian decomposition of these networks, routing and broadcasting algorithms, resource placement algorithms, etc. are presented.
Keywords :
multiprocessor interconnection networks; number theory; parallel processing; De Bruijn networks; EJ integers; EJ networks; Eisenstein-Jacobi networks; Gaussian integers; Gaussian networks; Hamiltonian decomposition; broadcasting algorithms; hypercube networks; interconnection topologies; mesh networks; number theory concepts; parallel systems; resource placement algorithms; routing algorithms; topological properties; torus networks; Abstracts; Broadcasting; Educational institutions; Hypercubes; Network topology; Routing; Topology;
