Optimal total exchange in Cayley graphs |
| |
| Authors: | Dimakopoulos V.V. Dimopoulos N.J. |
| |
| Affiliation: | Dept. of Comput. Sci., Ioannina Univ.; |
| |
| Abstract: | Consider an interconnection network and the following situation: Every node needs to send a different message to every other node. This is the total exchange or all-to-all personalized communication problem, one of a number of information dissemination problems known as collective communications. Under the assumption that a node can send and receive only one message at each step (single-port model), it is seen that the minimum time required to solve the problem is governed by the status (or total distance) of the nodes in the network. We present a time-optimal solution for any Cayley network. Rings, hypercubes, cube-connected cycles, and butterflies are some well-known Cayley networks which can take advantage of our method. The solution is based on a class of algorithms which we call node-invariant algorithms and which behave uniformly across the network |
| |
| Keywords: | |
|
|
