Total Ionizing Dose Retention Capability of Conductive Bridging Random Access Memory

Author

Gonzalez-Velo, Y. ; Barnaby, H.J. ; Kozicki, M.N. ; Gopalan, Chakravarthy ; Holbert, Keith

Author_Institution

Sch. of Electr., Comput. & Energy Eng., Arizona State Univ., Tempe, AZ, USA

Volume

35

Issue

2

fYear

2014

fDate

Feb. 2014

Firstpage

205

Lastpage

207

Abstract

Resistance switching memory devices based on cation transport through an electrolyte and redox reactions at the electrodes have been implemented in a commercial memory technology known as conductive bridging random access memory (CBRAM). In this letter, the number of bit errors and variations in the supply current of CBRAM circuits exposed to ionizing radiation is investigated and compared with common memory technologies. The results indicate that even after exposure to high levels of ionizing radiation, CBRAM devices show no degradation in memory retention, which suggests that the technology has high reliability capability when compared with existing nonvolatile memory solutions.

Keywords

electrochemical electrodes; electrolytes; error statistics; integrated circuit reliability; oxidation; random-access storage; reduction (chemical); CBRAM circuits; bit errors; cation transport; commercial memory technology; conductive bridging random access memory; electrodes; electrolyte; ionizing radiation; memory retention; redox reactions; reliability capability; resistance switching memory devices; supply current; total ionizing dose retention capability; Ash; EPROM; NASA; Nonvolatile memory; Random access memory; Resistance; Switches; CBRAM; errors; medical; nonvolatile memory; reliability; retention; space; supply current; total ionizing dose;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2013.2295801

Filename

6704284