A Stateful Logic Family Based on a New Logic Primitive Circuit Composed of Two Antiparallel Bipolar Memristors

Nuo Xu; Tae Gyun Park; Hae Jin Kim; Xinglong Shao; Kyung Jean Yoon; Tae Hyung Park; Liang Fang; Kyung Min Kim; Cheol Seong Hwang

doi:10.1002/aisy.201900082

Advanced Intelligent Systems (Jan 2020)

A Stateful Logic Family Based on a New Logic Primitive Circuit Composed of Two Antiparallel Bipolar Memristors

Nuo Xu,
Tae Gyun Park,
Hae Jin Kim,
Xinglong Shao,
Kyung Jean Yoon,
Tae Hyung Park,
Liang Fang,
Kyung Min Kim,
Cheol Seong Hwang

Affiliations

Nuo Xu: Institute for Quantum Information & State Key Laboratory of High Performance Computing, and Microelectronics and Microprocessor Institute College of Computer National University of Defense Technology Changsha Hunan 410073 China
Tae Gyun Park: Department of Materials Science and Engineering and Inter-University Semiconductor Research Center Seoul National University Seoul 151-744 Republic of Korea
Hae Jin Kim: Department of Materials Science and Engineering and Inter-University Semiconductor Research Center Seoul National University Seoul 151-744 Republic of Korea
Xinglong Shao: Department of Materials Science and Engineering and Inter-University Semiconductor Research Center Seoul National University Seoul 151-744 Republic of Korea
Kyung Jean Yoon: Department of Materials Science and Engineering and Inter-University Semiconductor Research Center Seoul National University Seoul 151-744 Republic of Korea
Tae Hyung Park: Department of Materials Science and Engineering and Inter-University Semiconductor Research Center Seoul National University Seoul 151-744 Republic of Korea
Liang Fang: Institute for Quantum Information & State Key Laboratory of High Performance Computing, and Microelectronics and Microprocessor Institute College of Computer National University of Defense Technology Changsha Hunan 410073 China
Kyung Min Kim: Department of Materials Science and Engineering Korea Advanced Institute of Science and Technology Daejeon 34141 Republic of Korea
Cheol Seong Hwang: Department of Materials Science and Engineering and Inter-University Semiconductor Research Center Seoul National University Seoul 151-744 Republic of Korea

DOI: https://doi.org/10.1002/aisy.201900082
Journal volume & issue: Vol. 2, no. 1
pp. n/a – n/a

Abstract

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Stateful logic enables highly energy‐efficient computation because the time and energy consumption for data transfer between the memory and the processing units in the traditional computation system can significantly be saved due to the combined functionalities of logic operation and nonvolatile memory. The logic primitive circuit, usually composed of resistive switching memory or memristor units, is the fundamental and kernel element to build a stateful logic family. However, the current stateful logic primitive circuits cannot be configured between the devices from the adjacent layers of the 3D crossbar array (CBA) which largely limited its application in high‐density and capacity memory arrays. Herein, a new stateful logic primitive circuit is presented based on the structure of two antiparallel bipolar memristors. The presented logic primitive circuit enables a complete set of stateful logic operation and is compatible with a 3D CBA. The working principle and validity of the logic design were experimentally demonstrated by either a real TiO2‐based memristive circuit or the HSPICE simulation. Furthermore, a space‐time‐wise cascading method was demonstrated by XOR and the full adder functions based on a CBA, and its merits were further elucidated through comparison with different logic families with various cascading methods.

Published in Advanced Intelligent Systems

ISSN: 2640-4567 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics: Computer engineering. Computer hardware; Technology: Mechanical engineering and machinery: Control engineering systems. Automatic machinery (General)
Website: https://onlinelibrary.wiley.com/journal/26404567

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