Rearrangeability of the five-stage shuffle/ exchange network for N = 8
Abstract
In this paper we prove the rearrangeability of a multistage shuffle/exchange network with eight inputs and outputs consisting of five stages. A lower bound of (2 Iog2N - 1) stages for rearrangeability of a shuffle/exchange network with N = 2n inputs and outputs is known; we show its sufficiency for N = 8. We not only prove the rearrangeability, but also describe an algorithm for routing arbitrary permutations on the network and prove its correctness. In contrast to previous efforts to prove rearrangeability, which rely on topological equivalence to the Benes class of rearrangeable networks, our approach is based on first principles. We also show that two switches in the network are redundant. The results in this paper are useful for establishing an upper bound of (3 log2N - 4) stages for rearrangeability of a multistage shuffle/exchange network with N ≥ 8, as demonstrated in [12]. Copyright © 1987 by The Institute of Electrical and Electronics Engineers, Inc.