Author_Institution :
Center for Adv. Comput. Studies, Southwestern Louisiana Univ., Lafayette, LA, USA
Abstract :
The construction of a crossed cube which has many of the properties of the hypercube, but has diameter only about half as large, is discussed. This network is self-routing, in the sense that there is a simple distributed routing algorithm which guarantees optimal paths between any pair of vertices. This fact, together with other properties such as regularity, symmetry, high connectivity, and a simple recursive structure, suggests that the crossed cube may be an attractive alternative to the ordinary hypercube for massively parallel architectures, SIMD algorithms, which utilize the architecture are developed, and it is shown that the CQn architecture can profitably emulate the ordinary hypercube. It is also shown that addition of simple switches can improve the capabilities of the system significantly. For instance, the dynamic reconfiguration capability allows hypercube algorithms to be executed on the proposed architecture. The use of these switches also improves the embedding properties of the system
Keywords :
multiprocessor interconnection networks; parallel algorithms; parallel architectures; CQn architecture; SIMD algorithms; crossed cube architecture; distributed routing algorithm; dynamic reconfiguration; embedding properties; high connectivity; hypercube algorithms; massively parallel architectures; parallel computation; recursive structure; regularity; self routing network; switches; symmetry; Communication switching; Computational modeling; Computer architecture; Concurrent computing; Hypercubes; Network topology; Parallel architectures; Routing; Sorting; Switches;
