Haesung Hwang, Koji Yamamoto, S. Ata, K. Inoue, M. Murata
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Minimization of ACL storage by adding minimal hardware of range matching and logical gates to TCAM
Ternary content addressable memory (TCAM) is a special type of memory used in routers in order to achieve high speed packet classification. The classification is performed using the five fields in an access control list (ACL), port numbers being one of them. Since port numbers that are expressed in ranges require multiple entries in storage, this results in an increased cost of hardware. In this paper we propose a method to reduce the number of entries when expressing ranges in TCAM. We use range matching devices integrated within the TCAMpsilas control logic and optimized prefix expansion that utilizes logical AND and NOT gates in the TCAM array itself. In addition, we use real data of an existing network to show that the proposed architecture can store the ACL in an efficient way.
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