Title :
Routing through networks with hierarchical topology aggregation
Author :
Awerbuch, Baruch ; Du, Yi ; Khan, Bilal ; Shavitt, Yuval
Author_Institution :
Dept. of Comput. Sci., Johns Hopkins Univ., Baltimore, MD, USA
fDate :
30 Jun-2 Jul 1998
Abstract :
In the future, global networks will consist of a hierarchy of subnetworks called domains. For reasons of both scalability and security, domains will not reveal details of their internal structure to outside nodes. Instead, these domains will advertise only a summary, or aggregated view, of their internal structure, e.g., as proposed by the ATM PNNI standard. This work compares, by simulation, the performance of several different aggregation schemes in terms of network throughput (the fraction of attempted connections that are realized), and network control load (the average number of crankbacks per realized connection.) Our main results are: the minimum spanning tree is a good aggregation scheme; exponential link cost functions perform better than min-hop routing; our suggested logarithmic update scheme that determines when re-aggregation should be computed can significantly reduce the computational overhead due to re-aggregation with a negligible decrease in performance
Keywords :
network topology; telecommunication network routing; ATM PNNI standard; attempted connections; computational overhead; crankbacks; domains; global networks; hierarchical topology aggregation; internal structure; logarithmic update scheme; minimum spanning tree; network control load; network throughput; nodes; re-aggregation; routing; scalability; security; subnetworks; Computer network management; Computer networks; Computer science; Contracts; Cost function; Network topology; Routing; Scalability; Security; Throughput;
Conference_Titel :
Computers and Communications, 1998. ISCC '98. Proceedings. Third IEEE Symposium on
Conference_Location :
Athens
Print_ISBN :
0-8186-8538-7
DOI :
10.1109/ISCC.1998.702556
