• Title/Summary/Keyword: IP-address lookup

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Binary Search Tree with Switch Pointers for IP Address Lookup (스위치 포인터를 이용한 균형 이진 IP 주소 검색 구조)

  • Kim, Hyeong-Gee;Lim, Hye-Sook
    • Journal of KIISE:Information Networking
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    • v.36 no.1
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    • pp.57-67
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    • 2009
  • Packet forwarding in the Internet routers is to find out the longest prefix that matches the destination address of an input packet and to forward the input packet to the output port designated by the longest matched prefix. The IP address lookup is the key of the packet forwarding, and it is required to have efficient data structures and search algorithms to provide the high-speed lookup performance. In this paper, an efficient IP address lookup algorithm using binary search is investigated. Most of the existing binary search algorithms are not efficient in search performance since they do not provide a balanced search. The proposed binary search algorithm performs perfectly balanced binary search using switch pointers. The performance of the proposed algorithm is evaluated using actual backbone routing data and it is shown that the proposed algorithm provides very good search performance without increasing the memory amount storing the forwarding table. The proposed algorithm also provides very good scalability since it can be easily extended for multi-way search and for large forwarding tables

Binary Search on Multiple Small Trees for IP Address Lookup (복수의 작은 트리에 대한 바이너리 검색을 이용한 IP 주소 검색 구조)

  • Lee Bo mi;Lim Hye sook;Kim Won jung
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.29 no.12C
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    • pp.1642-1651
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    • 2004
  • Advance of internet access technology requires more internet bandwidth and high-speed packet processing. IP address lookups in routers are essential elements which should be performed in real time for packets arriving tens-of-million packets per second. In this paper, we proposed a new architecture for efficient IP address lookup. The proposed scheme produces multiple balanced trees stored into a single SRAM. The proposed scheme performs sequential binary searches on multiple trees. Performance evaluation results show that p개posed architecture requires 301.7KByte SRAM to store about 40,000 prefix samples, and an address lookup is achieved by 11.3 memory accesses in average.

Balanced Binary Search Using Prefix Vector for IP Address Lookup (프리픽스 벡터를 사용한 균형 이진 IP 주소 검색 구조)

  • Kim, Hyeong-Gee;Lim, Hye-Sook
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.33 no.5B
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    • pp.285-295
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    • 2008
  • Internet routers perform packet forwarding which determines a next hop for each incoming packet using the packet's destination IP address. IP address lookup becomes one of the major challenges because it should be performed in wire-speed for every incoming packet under the circumstance of the advancement in link technologies and the growth of the number of the Internet users. Many binary search algorithms have been proposed for fast IP address lookup. However, tree-based binary search algorithms are usually unbalanced, and they do not provide very good search performance. Even for binary search algorithms providing balanced search, they have drawbacks requiring prefix duplication. In this paper, a new binary search algorithm which provides the balanced binary search and the number of its entries is much less than the number of original prefixes. This is possible because of composing the binary search tree only with disjoint prefixes of the prefix set. Each node has a prefix vector that has the prefix nesting information. The number of memory accesses of the proposed algorithm becomes much less than that of prior binary search algorithms, and hence its performance for IP address lookup is considerably improved.

IP Prefix Update of Routing Protocol in the Multi-way Search Tree (멀티웨이 트리에서의 IP Prefix 업데이트 방안)

  • 이상연;이강복;이형섭
    • Proceedings of the IEEK Conference
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    • 2001.06a
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    • pp.269-272
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    • 2001
  • Since Multi-way Search Tree reduces the number of the memory access by increasing the branch factor, it is considered a method to archive the high-speed IP address lookup. Using the combination of initial 16 bit may and Multi-way Search Tree, it also reduces the search time of If address lookup. Multi-way Search Tree consists of K keys and K+1 key pointers. This paper shows how the E update of Multi-way Search Tree which consists of the one pointer within a node can be performed. Using the one pointer within a node, it increases the number of keys within a node and reduces the search time of IP lookup. We also describes IP updating methods such as modification, Insertion and Deletion of address entries. Our update scheme performs better than the method which rebuilds the entire IP routing table when IP update processes.

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Bitmap-based Prefix Caching for Fast IP Lookup

  • Kim, Jinsoo;Ko, Myeong-Cheol;Nam, Junghyun;Kim, Junghwan
    • KSII Transactions on Internet and Information Systems (TIIS)
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    • v.8 no.3
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    • pp.873-889
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    • 2014
  • IP address lookup is very crucial in performance of routers. Several works have been done on prefix caching to enhance the performance of IP address lookup. Since a prefix represents a range of IP addresses, a prefix cache shows better performance than an IP address cache. However, not every prefix is cacheable in itself. In a prefix cache it causes false hit to cache a non-leaf prefix because there is possibly the longer matching prefix in the routing table. Prefix expansion techniques such as complete prefix tree expansion (CPTE) make it possible to cache the non-leaf prefixes as the expanded forms, but it is hard to manage the expanded prefixes. The expanded prefixes sometimes incur a great deal of update overhead in a routing table. We propose a bitmap-based prefix cache (BMCache) to provide low update overhead as well as low cache miss ratio. The proposed scheme does not have any expanded prefixes in the routing table, but it can expand a non-leaf prefix using a bitmap on caching time. The trace-driven simulation shows that BMCache has very low miss ratio in spite of its low update overhead compared to other schemes.

Weighted Binary Prefix Tree for IP Address Lookup (IP 주소 검색을 위한 가중 이진 프리픽스 트리)

  • Yim Changhoon;Lim Hyesook;Lee Bomi
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.29 no.11B
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    • pp.911-919
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    • 2004
  • IP address lookup is one of the essential functions on internet routers, and it determines overall router performance. The most important evaluation factor for software-based IP address lookup is the number of the worst case memory accesses. Binary prefix tree (BPT) scheme gives small number of worst case memory accesses among previous software-based schemes. However the tree structure of BPT is normally unbalanced. In this paper, we propose weighted binary prefix tree (WBP) scheme which generates nearly balanced tree, through combining the concept of weight to the BPT generation process. The proposed WBPT gives very small number of worst case memory accesses compared to the previous software-based schemes. Moreover the WBPT requires comparably small size of memory which can be fit within L2 cache for about 30,000 prefixes, and it is rather simple for prefix addition and deletion. Hence the proposed WBPT can be used for software-based If address lookup in practical routers.

Review On Tries for IPv6 Lookups

  • Bal, Rohit G
    • International journal of advanced smart convergence
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    • v.5 no.3
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    • pp.47-55
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    • 2016
  • Router main task is to provide routing of Internet Protocol (IP) packets. Routing is achieved with help of the IP lookup. Router stores information about the networks and interfaces in data structures commonly called as routing tables. Comparison of IP from incoming packet with the IPs stored in routing table for the information about route is IP Lookup. IP lookup performs by longest IP prefix matching. The performance of the IP router is based on the speed of prefix matching. IP lookup is a major bottle neck in the performance of Router. Various algorithms and data structures are available for IP lookup. This paper is about reviewing various tree based structure and its performance evaluation.

IP Address Lookup using Segment Trees (세그먼트 트리를 이용한 IP 주소 검색)

  • Lee, In-Bok;Park, Geun-Su;Choe, Yang-Hui;Jeong, Seong-Gwon
    • Journal of KIISE:Computer Systems and Theory
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    • v.28 no.11
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    • pp.613-619
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    • 2001
  • The IP address lookup problem is to find the longest matching IP prefix for a given IP address from the routing table and has been a central bottleneck in speeding up the Internet. In this paper, we propose a new algorithm for this problem based on the segment tree data structure. Given n IP prefixes, our algorithm can do IP address in Ο(log n) time. It also handles the insertion and deletion of IP prefixes efficiently without rebuilding the total data structure.

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A Hybrid Prefix Cashing Scheme for Efficient IP Address Lookup

  • Kim, Jinsoo;Kim, Junghwan
    • Journal of the Korea Society of Computer and Information
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    • v.20 no.12
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    • pp.45-52
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    • 2015
  • We propose a hybrid prefix caching scheme to enable high speed IP address lookup. All prefixes loaded in a prefix cache should not be overlapped in address range for correct IP lookup. So, every non-leaf prefix needs to be expanded not so as to be overlapped. The shorter expanded prefix is more preferable because it can cover wider address range just as an single entry in a prefix cache. We exploits advantages of two dynamic prefix expansion techniques, bounded prefix expansion technique and bitmap-based prefix expansion technique. The proposed scheme uses dual bound values whereas just one bound value is used in bounded prefix expansion. Our elaborated technique make the dual bound values be associated with several subtries flexibly using bitmap information, rather than with fixed subtries. We evaluate the performance of the proposed scheme in terms of the average length of the expanded prefixes and cache miss ratio. The experiment results show the proposed scheme has lower cache miss ratio than other previous schemes including both bounded prefix expansion and bitmap-based expansion irrespective of the cache size.

A New Pipelined Binary Search Architecture for IP Address Lookup (IP 어드레스 검색을 위한 새로운 pipelined binary 검색 구조)

  • Lim Hye-Sook;Lee Bo-Mi;Jung Yeo-Jin
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.29 no.1B
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    • pp.18-28
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    • 2004
  • Efficient hardware implementation of address lookup is one of the most important design issues of internet routers. Address lookup significantly impacts router performance since routers need to process tens-to-hundred millions of packets per second in real time. In this paper, we propose a practical IP address lookup structure based on the binary tree of prefixes of different lengths. The proposed structure produces multiple balanced trees, and hence it solve the issues due to the unbalanced binary prefix tree of the existing scheme. The proposed structure is implemented using pipelined binary search combined with a small size TCAM. Performance evaluation results show that the proposed architecture requires a 2000-entry TCAM and total 245 kbyte SRAMs to store about 30,000 prefix samples from MAE-WEST router, and an address lookup is achieved by a single memory access. The proposed scheme scales very well with both of large databases and longer addresses as in IPv6.