Design of ternary content-addressable memories with dynamically power-gated storage cells using finfets

Meng Chou Chang*, Kai Lun He, Yu Chieh Wang

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

Abstract

An independent-gate FinFET can operate in two modes: SG (shorted-gate) and IG (independent-gate) modes, and thus a FinFET-based circuit offers rich design options for lower power, better performance or reduced transistor count. In this paper, we present two novel dynamically power-gated FinFET TCAM cells, called DPG-17T and DPG-16T, which power-gate the prefix data storage unit when storing a 'don't care' value. With the dynamic power-gating mechanism, DPG-17T/DPG-16T achieve lower power dissipation by eliminating the switching power of the comparison FinFETs and suppressing the leakage power of the prefix data storage when storing a 'don't care' value. Moreover, the discharge path of the matchline in DPG-17T/DPG-16T can be constructed with only one FinFET instead of two FinFETs, greatly boosting the search speed. Simulation results have shown that a TCAM of 64-wordx128-bit using DPG-17T/DPG-16T can reduce the worst-case search delay by 53.0%/53.6% and improve the energy-delay product by 68.5%/70.4% when operating under a search rate of 4.0 GHz.

Original languageEnglish
Pages (from-to)9-15
Number of pages7
JournalElectronics
Volume20
Issue number1
StatePublished - 2016
Externally publishedYes

Keywords

  • FinFET
  • Low-power electronics
  • Power gating
  • Ternary content-addressable memories (TCAM)

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