NCFET-Based 6-T SRAM: Yield Estimation Based on Variation-Aware Sensitivity

NCFET-Based 6-T SRAM: Yield Estimation Based on Variation-Aware Sensitivity

The key feature of NCFET (negative capacitance field effect transistor) is its sub-threshold slope (SS) <; 60 mV/decade at 300 K. In this work, the n-type NCFET (i.e., pull-down (PD) and passgate (PG) transistor in six-transistor (6T) SRAM bit-cell) has SS of 53.92 mV/decade, and the p-type N...

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Bibliographic Details
Main Authors: Yuri Hong, Yejoo Choi, Changhwan Shin
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Journal of the Electron Devices Society
Subjects:
Yield estimation
sensitivity
cell sigma
SRAM
NCFET
Online Access:https://ieeexplore.ieee.org/document/8999594/
Description
Summary:The key feature of NCFET (negative capacitance field effect transistor) is its sub-threshold slope (SS) <; 60 mV/decade at 300 K. In this work, the n-type NCFET (i.e., pull-down (PD) and passgate (PG) transistor in six-transistor (6T) SRAM bit-cell) has SS of 53.92 mV/decade, and the p-type NCFET (i.e., pull-up (PU) transistor in the 6T SRAM bit-cell) has SS of 58.96 mV/decade. In the NCFET-based SRAM cell (vs. conventional SRAM cell with conventional planar bulk MOSFETs), its read (hold)-stability and write-ability are evaluated by the metric of read static noise margin (SNM) and write-ability current (Iw), respectively. Then, under process-induced random variation, sensitivities of SNM and Iw are extracted. Finally, the yield of NCFET-based SRAM array (vs. conventional SRAM array) is quantitatively estimated using the cell-sigma.
ISSN:2168-6734

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