Title :
Scaling of oxide-based resistive switching devices
Author :
Ielmini, D. ; Ambrogio, S. ; Balatti, S.
Author_Institution :
Dipt. di Elettron., Inf. e Bioingegneria, Politec. di Milano, Vinci, Italy
Abstract :
Emerging memory technologies are currently under deep investigation as possible replacements of Flash memory and possible new computing memories. Among these novel technologies, resistance switching memory (RRAM) offer fast switching, low voltage operation and low power consumption. On the other hand, important questions about the scaling of RRAM currently remain unanswered. This work addresses RRAM scalability from the viewpoint of switching and read fluctuations due to localized filamentary switching. Switching variability is discussed in terms of few-defect migration, while random current noise is described by bistable defect close to the conductive filament. Models for program/read noise allow to predict the tradeoff between scaling of device size/power and variability.
Keywords :
resistive RAM; RRAM; conductive filament; few-defect migration; flash memory; localized filamentary switching variability; oxide-based resistive switching device; power consumption; program-read noise model; random current noise; resistance switching memory; scalability; Current measurement; Fluctuations; Integrated circuits; Monte Carlo methods; Noise; Resistance; Switches; Resistive switching memory; metal oxide; nonvolatile memory; scaling; variability;
Conference_Titel :
Non-Volatile Memory Technology Symposium (NVMTS), 2014 14th Annual
Print_ISBN :
978-1-4799-4203-9
DOI :
10.1109/NVMTS.2014.7060839
