Title :
Quantitative identification for the physical origin of variable retention time: A vacancy-oxygen complex defect model
Author :
Ohyu, K. ; Umeda, T. ; Okonogi, K. ; Tsukada, S. ; Hidaka, M. ; Fujieda, S. ; Mochizuki, Y.
Author_Institution :
Technol. & Dev. Office, Elpida Memory, Inc., Hiroshima
Abstract :
We quantitatively examined current high-density DRAMs to identify the physical origin of the so-called variable retention time phenomenon, which is characterized by bistability of the data retention time of a DRAM bit. Experimental and theoretical analyses led us to supporting a vacancy-oxygen complex defect model. On the basis of the model, we achieved significant improvements in the VRT bit rate by introducing three control methods, defect reduction, defect deactivation, and stress reduction processes
Keywords :
DRAM chips; integrated circuit modelling; stability; DRAM; data retention time bistability; defect deactivation; defect reduction; physical origin quantitative identification; stress reduction; vacancy-oxygen complex defect model; variable retention time; Bit rate; Energy states; Laboratories; Libraries; Microscopy; National electric code; Quality assurance; Random access memory; Temperature measurement; Testing;
Conference_Titel :
Electron Devices Meeting, 2006. IEDM '06. International
Conference_Location :
San Francisco, CA
Print_ISBN :
1-4244-0439-8
Electronic_ISBN :
1-4244-0439-8
DOI :
10.1109/IEDM.2006.346792
