Title :
Prefix and interval-partitioned dynamic IP router-tables
Author :
Lu, Haibin ; Kim, Kun Suk ; Sahni, Sartaj
Author_Institution :
Dept. of Comput. Sci., Missouri Univ., Columbia, MO, USA
fDate :
5/1/2005 12:00:00 AM
Abstract :
Two schemes - prefix partitioning and interval partitioning - are proposed to improve the performance of dynamic IP router-table designs. While prefix partitioning applies to all known dynamic router-table designs, interval partitioning applies to the alternative collection of binary search tree designs of Sahni and Kim [S. Sahni et al., (2004)]. Experiments using public-domain IPv4 router databases indicate that one of the proposed prefix partitioning schemes - TLDP - results in router tables that require less memory than when prefix partitioning is not used. Further significant reduction in the time to find the longest matching-prefix, insert a prefix, and delete a prefix is achieved.
Keywords :
IP networks; data structures; database management systems; string matching; table lookup; telecommunication network routing; tree searching; TLDP partitioning scheme; data structure; dynamic IP router-tables; interval partitioning; longest-prefix matching; packet routing; prefix partitioning; public-domain IPv4 router databases; Binary search trees; Data structures; Databases; Frequency; Matched filters; Routing; Index Terms- Packet routing; dynamic router-tables; interval partitioning.; longest-prefix matching; prefix partitioning;
Journal_Title :
Computers, IEEE Transactions on
