Title :
Comprehensive understanding of conductive filament characteristics and retention properties for highly reliable ReRAM
Author :
Muraoka, S. ; Ninomiya, Tamotsu ; Wei, Zhihui ; Katayama, Kengo ; Yasuhara, R. ; Takagi, Toshiyuki
Author_Institution :
Automotive & Ind. Syst. Co., Nagaokakyo, Japan
Abstract :
We have proposed a retention degradation model based on an oxygen diffusion and percolation path cut mechanism in a filament of TaOx bipolar ReRAM. We have developed a new methodology for quantitating the conductive filament characteristics and have revealed that the retention property of ReRAMs can be explained in terms of filament characteristics, including filament size S, density of oxygen vacancies N(Vo), and density of residual oxygen N(Ox). We have improved the retention property of ReRAM under low current operation, by controlling these filament characteristics.
Keywords :
diffusion; integrated circuit reliability; integrated memory circuits; percolation; random-access storage; ReRAMs; TaOx; TaOx bipolar ReRAM; conductive filament characteristics; oxygen diffusion; percolation path cut mechanism; retention degradation model; retention property; Conductivity; Current distribution; Degradation; Reliability; Resistance; Standards; Switches;
Conference_Titel :
VLSI Technology (VLSIT), 2013 Symposium on
Conference_Location :
Kyoto
Print_ISBN :
978-1-4673-5226-0
