Static noise margin enhancement by flex-pass-gate SRAM

Shin Ichi O'uchi, Meishoku Masahara, Kunihiro Sakamoto, Kazuhiko Endo, Yungxun Liu, Takashi Matsukawa, Toshihiro Sekigawa, Hanpei Koike, Eiichi Suzuki

Research output: Contribution to journalArticle

Abstract

A Flex-Pass-Gate SRAM, i.e. a fin-type-field-effect-transistor-(FinFET-) based SRAM, is proposed to enhance noise margin during both read and write operations. In its cell, the flip-flop is composed of usual three-terminal-(3T-) FinFETs while pass gates are composed of four-terminal- (4T-) FinFETs. The 4T-FinFETs enable to adopt a dynamic threshold-voltage control in the pass gates. During a write operation, the threshold voltage of the pass gates is lowered to enhance the writing speed and stability. During the read operation, on the other hand, the threshold voltage is raised to enhance the static noise margin. An asymmetric-oxide 4T-FinFET is helpful to manage the leakage current through the pass gate. In this paper, a design strategy of the pass gate with an asymmetric gate oxide is considered, and a TCAD-based Monte Carlo simulation reveals that the Flex-Pass-Gate SRAM based on that design strategy is expected to be effective in half-pitch 32-nm technology for low-standby-power (LSTP) applications, even taking into account the variability in the device performance.

Original languageEnglish
JournalIEEJ Transactions on Electronics, Information and Systems
Volume128
Issue number6
DOIs
Publication statusPublished - 2008 Jan 1
Externally publishedYes

Keywords

  • Asymmetric-oxide four-terminal FinFET
  • FinFET
  • Four-terminal FinFET
  • Pass gate
  • SRAM
  • Static noise margin

ASJC Scopus subject areas

  • Electrical and Electronic Engineering

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  • Cite this

    O'uchi, S. I., Masahara, M., Sakamoto, K., Endo, K., Liu, Y., Matsukawa, T., Sekigawa, T., Koike, H., & Suzuki, E. (2008). Static noise margin enhancement by flex-pass-gate SRAM. IEEJ Transactions on Electronics, Information and Systems, 128(6). https://doi.org/10.1541/ieejeiss.128.919