Title :
Finite State Model and Compatibility Theory: New Analysis Tools for Permutation Networks
Author :
Huang, Shing-Tsaan ; Tripathi, Satish K.
Author_Institution :
System Design and Analysis Group, Department of Computer Science, University of Maryland
fDate :
7/1/1986 12:00:00 AM
Abstract :
In this paper, we present a new model, finite permutation machine (FPM), to describe the permutation networks. A set of theorems are developed to capture the theory of operations for the permutation networks. Using this new framework, an interesting problem is attacked: are 2n − 1 passes of shuffle exchange necessary and sufficient to realize all permutations? where n = log2 N and N is the number of inputs and outputs interconnected by the network. We prove that to realize all permutations, 2n − 1 passes of shuffle exchange are necessary and that 3n − 3 passes are sufficient. This reduces the sufficient number of passes by 2 from the best-known result.
Keywords :
Finite permutation machine; SIMD; interconnection network; permutation network; shuffle; stack permutation machine; tightly coupled multiprocessors; Computer science; Concurrent computing; Multiprocessing systems; Multiprocessor interconnection networks; NASA; Parallel processing; Scanning probe microscopy; Sorting; Switches; System analysis and design; Finite permutation machine; SIMD; interconnection network; permutation network; shuffle; stack permutation machine; tightly coupled multiprocessors;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1986.1676800
