Data retention statistics and modelling in HfO2 resistive switching memories

Author

Ambrogio, Stefano ; Balatti, Simone ; Wang, Zhong Qiang ; Yu-Sheng Chen ; Heng-Yuan Lee ; Chen, Frederick T. ; Ielmini, Daniele

Author_Institution

DEIB, IU.NET, Milan, Italy

fYear

2015

fDate

19-23 April 2015

Abstract

Resistive switching memory (RRAM) devices are gaining momentum as next generation memory technology for high density and embedded storage. To support technology development by the industry, the scaling and reliability of 1 kb RRAM must be understood and predicted. This work addresses data retention of resistance states in RRAM arrays based on HfO₂. We develop a new method for studying retention statistics and show that retention characteristics are dictated by the cell position in the resistance distribution. Resistance drift and its variation are studied as a function of program time and verify levels. The retention behaviors of set/reset states are finally explained in terms of filament size and mechanical stress for set and reset states, respectively.

Keywords

hafnium compounds; high-k dielectric thin films; integrated circuit modelling; integrated circuit reliability; resistive RAM; HfO₂; RRAM devices; cell position; data retention statistics; embedded storage; filament size; mechanical stress; next generation memory technology; program time function; resistance distribution; resistance drift; resistance states; resistive switching memories; set-reset states; storage capacity 1 Kbit; Annealing; Electrical resistance measurement; Integrated circuits; Radio frequency; Resistance; Stress; Temperature measurement; Resistive switching memory (RRAM); array statistics; data retention; statistical fluctuations;

fLanguage

English

Publisher

ieee

Conference_Titel

Reliability Physics Symposium (IRPS), 2015 IEEE International

Conference_Location

Monterey, CA

Type

conf

DOI

10.1109/IRPS.2015.7112810

Filename

7112810