IP address lookup using bit-shuffled trie

Derek Pao; Ziyan Lu; Yat Hang Poon

doi:10.1016/j.comcom.2014.04.006

IP address lookup using bit-shuffled trie

Derek Pao
, Ziyan Lu
, Yat Hang Poon

Department of Electrical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

14 Citations (Scopus)

Abstract

An algorithmic RAM-based IP address lookup method called bit-shuffled trie is presented. By rearranging the bits of the prefixes, memory efficient index tables can be constructed to support IP address lookup. The address lookup engine can be implemented using pipelined architecture with simple processing logic. The proposed method has superior memory efficiency. The memory cost for a 474 K prefixes IPv4 routing table is only 1.1 MB, and the memory cost for a 215 K 64-bit prefixes IPv6 routing table is about 1.7 MB. The exceptional memory efficiency of the proposed method allows us to implement the IP address lookup engine for both IPv4 and IPv6 on a single FPGA device. Incremental updates to the routing table can be handled efficiently. On average, about 8 memory-write operations to the data structures are required to process an insertion or deletion. © 2014 Elsevier B.V. All rights reserved.

Original language	English
Pages (from-to)	51-64
Journal	Computer Communications
Volume	47
Online published	18 Apr 2014
DOIs	https://doi.org/10.1016/j.comcom.2014.04.006
Publication status	Published - 1 Jul 2014

Research Keywords

IPv4 and IPv6 address lookup
Packet forwarding
Pipelined architecture

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10.1016/j.comcom.2014.04.006

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title = "IP address lookup using bit-shuffled trie",

abstract = "An algorithmic RAM-based IP address lookup method called bit-shuffled trie is presented. By rearranging the bits of the prefixes, memory efficient index tables can be constructed to support IP address lookup. The address lookup engine can be implemented using pipelined architecture with simple processing logic. The proposed method has superior memory efficiency. The memory cost for a 474 K prefixes IPv4 routing table is only 1.1 MB, and the memory cost for a 215 K 64-bit prefixes IPv6 routing table is about 1.7 MB. The exceptional memory efficiency of the proposed method allows us to implement the IP address lookup engine for both IPv4 and IPv6 on a single FPGA device. Incremental updates to the routing table can be handled efficiently. On average, about 8 memory-write operations to the data structures are required to process an insertion or deletion. {\textcopyright} 2014 Elsevier B.V. All rights reserved.",

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author = "Derek Pao and Ziyan Lu and Poon, \{Yat Hang\}",

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T1 - IP address lookup using bit-shuffled trie

AU - Pao, Derek

AU - Lu, Ziyan

AU - Poon, Yat Hang

PY - 2014/7/1

Y1 - 2014/7/1

N2 - An algorithmic RAM-based IP address lookup method called bit-shuffled trie is presented. By rearranging the bits of the prefixes, memory efficient index tables can be constructed to support IP address lookup. The address lookup engine can be implemented using pipelined architecture with simple processing logic. The proposed method has superior memory efficiency. The memory cost for a 474 K prefixes IPv4 routing table is only 1.1 MB, and the memory cost for a 215 K 64-bit prefixes IPv6 routing table is about 1.7 MB. The exceptional memory efficiency of the proposed method allows us to implement the IP address lookup engine for both IPv4 and IPv6 on a single FPGA device. Incremental updates to the routing table can be handled efficiently. On average, about 8 memory-write operations to the data structures are required to process an insertion or deletion. © 2014 Elsevier B.V. All rights reserved.

AB - An algorithmic RAM-based IP address lookup method called bit-shuffled trie is presented. By rearranging the bits of the prefixes, memory efficient index tables can be constructed to support IP address lookup. The address lookup engine can be implemented using pipelined architecture with simple processing logic. The proposed method has superior memory efficiency. The memory cost for a 474 K prefixes IPv4 routing table is only 1.1 MB, and the memory cost for a 215 K 64-bit prefixes IPv6 routing table is about 1.7 MB. The exceptional memory efficiency of the proposed method allows us to implement the IP address lookup engine for both IPv4 and IPv6 on a single FPGA device. Incremental updates to the routing table can be handled efficiently. On average, about 8 memory-write operations to the data structures are required to process an insertion or deletion. © 2014 Elsevier B.V. All rights reserved.

KW - IPv4 and IPv6 address lookup

KW - Packet forwarding

KW - Pipelined architecture

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M3 - RGC 21 - Publication in refereed journal

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VL - 47

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JO - Computer Communications

JF - Computer Communications

ER -

IP address lookup using bit-shuffled trie

Abstract

Research Keywords

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