EFFICIENT MULTI-BIT SRAMS USING NANOSTRUCTURES FIELD-EFFECT TRANSISTORS (NANO-FETS)

Bander Saman

Back

Conference proceeding

EFFICIENT MULTI-BIT SRAMS USING NANOSTRUCTURES FIELD-EFFECT TRANSISTORS (NANO-FETS)

Bander Saman

2018 CHINA SEMICONDUCTOR TECHNOLOGY INTERNATIONAL CONFERENCE (CSTIC)

01/01/2018

Abstract

Computer Science

Computer Science, Hardware & Architecture

Engineering

Engineering, Electrical & Electronic

Engineering, Manufacturing

Materials Science

Materials Science, Multidisciplinary

Nanoscience & Nanotechnology

Science & Technology

Science & Technology - Other Topics

Technology

This paper presents emerging quantum dot (QDs) and quantum wells (QWs) field-effect transistors (FETs) where nanotechnology is integrated for 2-bit static random access memory (SRAM) cells and multiple valued logic (MVL) circuits. As feature sizes have started to approach sub-7 nm regime, several issues have begun to make further miniaturization difficult. We present n-channel QDs gate/channel and n-channel QWs spatial wave-function switching FETs. Unlike conventional MOS-FET (metal-oxide semiconductor field-effect transistor) which can process 1-bit at a time, the QDs and wells FETs can process 2-bits and potentially implement multi-valued logic and reduce device count.

Metrics

1 Record Views

Details

Title: EFFICIENT MULTI-BIT SRAMS USING NANOSTRUCTURES FIELD-EFFECT TRANSISTORS (NANO-FETS)
Creators - without role: Bander Saman - Taif University
Contributors - without role: C Claeys
R Huang
H Wu
Q Lin
S Liang
P L Song
Z Guo
K Lai
Y Zhang
Y Wang
Y Shi
H L Lung
Publication Details: 2018 CHINA SEMICONDUCTOR TECHNOLOGY INTERNATIONAL CONFERENCE (CSTIC)
Publisher: IEEE
Number of pages: 4
Identifiers: 9910631608331
Academic Unit: Taif University; King Abdullah University of Science & Technology
Language: English
Resource Type: Conference proceeding