Title :
A novel switching architecture for ATM networks
Author_Institution :
Dept. of Inf. Manage., Nat. Defense Manage. Coll., Taipei, Taiwan
fDate :
4/1/1997 12:00:00 AM
Abstract :
It is known that the flexibility and capacity of asynchronous transfer mode (ATM) networks can meet the bandwidth requirements of multimedia applications. In ATM networks, switching is one of the major bottlenecks of end-to-end communication. We propose using a multiple partitionable circular bus network (MPCBN) as an ATM switch. Connection requests are first transformed into a graph where vertices and edges represent connection requests and conflicts among connection requests, respectively. We then use a graph traversal algorithm to select a maximal set of requests for execution in physically partitioned buses. An approach of using finite projective planes is then used to reduce the number of switch points from O(N2) to O(N √N), where N is the number of ports of a switch. A performance evaluation for both uniform and bursty data sources shows that the approach of using finite projective planes to reduce the number of switch points results in a small increase of cell loss probability
Keywords :
asynchronous transfer mode; graph theory; multimedia communication; network topology; telecommunication networks; telecommunication traffic; ATM networks; ATM switch; B-ISDN; asynchronous transfer mode; bandwidth; bursty data source; cell loss probability; conflicts; connection requests; edges; finite projective planes; graph; graph traversal algorithm; multimedia applications; multiple partitionable circular bus network; performance evaluation; switching architecture; traffic model; uniform data source; vertices; Asynchronous transfer mode; B-ISDN; Bandwidth; Broadcasting; Communication switching; Helium; Packet switching; Partitioning algorithms; Performance loss; Switches;
Journal_Title :
Communications, IEEE Transactions on
