Title :
Estimation of an optimal PNNI topology
Author :
Van Mieghem, Piet
Author_Institution :
Alcatel Res. Div., Antwerp, Belgium
Abstract :
Optimality of the PNNI (private network-network interface) topology is investigated analytically based on a routing complexity criterion that only depends on the number of nodes in a (sub)network. Results are presented for a complexity that is quadratic in the number of nodes because this case corresponds to the complexity of the well-known Dijkstra routing algorithm. The resulting optimal PNNI topology is highly symmetrical (all peer groups on a same hierarchical level are of equal size). Moreover, the lowest (physical) peer group size consists only of a few nodes, while, surprisingly perhaps, just a couple of hierarchical levels are needed to span a global network of 10 10 nodes. Routing algorithms with a higher nodal complexity than Dijkstra´s benefit from a higher complexity reduction using a hierarchical PNNI optimal topology
Keywords :
asynchronous transfer mode; computational complexity; network topology; optimisation; telecommunication network routing; Dijkstra routing algorithm; global network; hierarchical level; nodal complexity; optimal PNNI topology; optimality; peer groups; private network network interface; routing algorithms; routing complexity criteria; Computer networks; Constraint optimization; Equations; Functional analysis; Lagrangian functions; Network topology; Peer to peer computing; Routing; Terminology;
Conference_Titel :
IEEE ATM Workshop 1997. Proceedings
Conference_Location :
Lisboa
Print_ISBN :
0-7803-4196-1
DOI :
10.1109/ATM.1997.624740
