High-throughput low-energy self-timed CAM based on reordered overlapped search mechanism

Naoya Onizawa, Shoun Matsunaga, Vincent C. Gaudet, Warren J. Gross, Takahiro Hanyu

Research output: Contribution to journalArticlepeer-review

20 Citations (Scopus)

Abstract

This paper introduces a reordered overlapped search mechanism for high-throughput low-energy content-addressable memories (CAMs). Most mismatches can be found by searching a few bits of a search word. To lower power dissipation, a word circuit is often divided into two sections that are sequentially searched or even pipelined. Because of this process, most of match lines in the second section are unused. Since searching the last few bits is very fast compared to searching the rest of the bits, we propose to increase throughput by asynchronously initiating second-stage searches on the unused match lines as soon as a first-stage search is complete. In our circuit implementation, each word circuit is independently controlled by a locally generated timing signal rather than a global signal. This allows the circuits to be in the required phase for their own local operation: evaluate or precharge, instead of having to synchronize their phase to the rest of the word circuits, which greatly reduces the cycle time. As a design example, a 128 %times; 64-bit CAM is implemented and evaluated by HSPICE simulation under a 90 nm CMOS technology. The proposed asynchronous CAM operates 5.98 times faster than a synchronous CAM with 14.2% smaller energy dissipation. The post-layout proposed CAM achieves 385-ps cycle delay time and 0.773 fJ/bit/search and is also evaluated under different corner conditions and PVT variations to guarantee it operates properly.

Original languageEnglish
Article number6642145
Pages (from-to)865-876
Number of pages12
JournalIEEE Transactions on Circuits and Systems I: Regular Papers
Volume61
Issue number3
DOIs
Publication statusPublished - 2014 Mar

Keywords

  • Asynchronous circuits
  • NAND-type CAM
  • associative memory
  • pre-computation

ASJC Scopus subject areas

  • Electrical and Electronic Engineering

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