Title :
Performance comparison of O-based and Cu-based ReRAM for high-density applications
Author :
Calderoni, Alessandro ; Sills, Scott ; Ramaswamy, Nirmal
Author_Institution :
Micron Technol. Inc., Boise, ID, USA
Abstract :
The resistive switching memory (ReRAM) landscape encompasses several cell technology options. Filamentary systems that employ oxygen ion motion (O-ReRAM) or metal ion motion (M-ReRAM) and systems that employ uniform oxygen ion motion are being widely studied as potential candidates for next generation of non-volatile memory systems (NVM). While comparisons between different systems have been made at single-cell level, enabling a future NVM technology mandates an evaluation of a statistically significant population of bits. This paper presents an array-level comparison of two filamentary systems: O-ReRAM and Cu ion based M-ReRAM. The key factors for enabling a manufacturable product are compared, such as read window, noise, variability, endurance and retention.
Keywords :
copper; oxygen; random-access storage; switching circuits; Cu; Cu-based ReRAM; M-ReRAM; NVM; O; O-ReRAM; O-based ReRAM; high-density application; metal ion motion; nonvolatile memory system; oxygen ion motion; read window; resistive switching memory; single-cell level; Bit error rate; Electrodes; Ions; Metals; Noise; Random access memory; Switches; Conductive bridge; Endurance; Noise; Oxygen vacancy; Resistive memory; Retention; Variability;
Conference_Titel :
Memory Workshop (IMW), 2014 IEEE 6th International
Conference_Location :
Taipei
Print_ISBN :
978-1-4799-3594-9
DOI :
10.1109/IMW.2014.6849351
