Abstract—Dynamic IP router table schemes, which have recently been proposed in the literature, perform an IP lookup or an online prefix update in Oðlog2jT jÞ memory accesses (MAs). In terms of lookup time, they are still slower than the full expansion/compression (FEC) scheme (compressed next-hop array/code word array (CNHA/CWA)), which requires exactly (at most) three MAs, irrespective of the number of prefixes jT j in a routing table T. The prefix updates in both FEC and CNHA/CWA have a drawback: Inefficient offline structure reconstruction is arguably the only viable solution. This paper solves the problem. We propose the use of lexicographic ordered prefixes to reduce the offline construction time of both schemes. Simulations on several...
Abstract—This paper deals with the traditional IP address lookup problem with fast updates. We propo...
Internet address lookup is a challenging problem because of in-creasing routing table sizes, increas...
Internet routers forward packets based on the destination address of a packet. A packet\u27s address...
Dynamic IP router table schemes, which have recently been proposed in the literature, perform an IP ...
This dissertation develops a new and efficient method of routing table lookups for the current and n...
Abstract-Lookup architectures are among the well researched increased lookup times and hence degrada...
Abstract—In previous work, Lampson et al. proposed an IP lookup algorithm which performs binary sear...
IP address lookup is a fundamental task for Internet routers, due to the rapid growth of both traffi...
Abtract-In high performance routers design, fast IP address lookup is always a challenge. In order t...
Nowadays, the commonly used table lookup scheme for IP routing is based on the so-called classless i...
We consider the problem of fast IP address lookup in the forwarding engines of Internet routers. Ma...
Longest prefix matching is frequently used for IP forwarding in the Internet. Data structures used m...
Abstract | In this paper, we introduce a fast IP table lookup algorithm that improves table updating...
A multi-gigabit internet protocol (IP) router may receive several million packets per second from ea...
Internet (IP) address lookup is a major bottleneck in high performance routers. IP address lookup is...
Abstract—This paper deals with the traditional IP address lookup problem with fast updates. We propo...
Internet address lookup is a challenging problem because of in-creasing routing table sizes, increas...
Internet routers forward packets based on the destination address of a packet. A packet\u27s address...
Dynamic IP router table schemes, which have recently been proposed in the literature, perform an IP ...
This dissertation develops a new and efficient method of routing table lookups for the current and n...
Abstract-Lookup architectures are among the well researched increased lookup times and hence degrada...
Abstract—In previous work, Lampson et al. proposed an IP lookup algorithm which performs binary sear...
IP address lookup is a fundamental task for Internet routers, due to the rapid growth of both traffi...
Abtract-In high performance routers design, fast IP address lookup is always a challenge. In order t...
Nowadays, the commonly used table lookup scheme for IP routing is based on the so-called classless i...
We consider the problem of fast IP address lookup in the forwarding engines of Internet routers. Ma...
Longest prefix matching is frequently used for IP forwarding in the Internet. Data structures used m...
Abstract | In this paper, we introduce a fast IP table lookup algorithm that improves table updating...
A multi-gigabit internet protocol (IP) router may receive several million packets per second from ea...
Internet (IP) address lookup is a major bottleneck in high performance routers. IP address lookup is...
Abstract—This paper deals with the traditional IP address lookup problem with fast updates. We propo...
Internet address lookup is a challenging problem because of in-creasing routing table sizes, increas...
Internet routers forward packets based on the destination address of a packet. A packet\u27s address...