Title :
Stuck Bits Study in DDR3 SDRAMs Using 45-MeV Proton Beam
Author :
Chulseung Lim ; Hyun Soo Jeong ; GeunYong Bak ; Sanghyeon Baeg ; Shi-Jie Wen ; Wong, Richard
Author_Institution :
Dept. of Electron. & Commun. Eng., Hanyang Univ., Ansan, South Korea
Abstract :
This work shares the observations of stuck bits by proton beam in DDR3 components in 3x-nm technologies. The DDR3 SDRAMs from four major DRAM manufacturers were tested with a 45-MeV proton beam at an operating frequency of 800 MHz. The beam exposure resulted in single bit upset (SBU) and multiple bit upsets (MBUs), as well as single and multiple stuck bits in a word due to micro-dose and displacement damage effects. The number of stuck bits reduced as the refresh interval duration was decreased. Moreover, for the tested samples, the stuck bits were recovered completely and could be run in the normal operation mode after annealing at 150°C. The occurrence of multiple stuck bits in a word was likely due to damages to the control logic and those stuck bits were recovered as well after annealing at 150°C.
Keywords :
DRAM chips; annealing; proton effects; DDR3 SDRAM; DDR3 components; MBU; SBU; annealing; beam exposure; control logic; displacement damage effects; electron volt energy 45 MeV; microdose damage effects; multiple bit upset; multiple stuck bits; proton beam; single bit upset; single stuck bits; temperature 150 degC; Amplitude modulation; Annealing; Leakage currents; Particle beams; Radiation effects; SDRAM; DDR3; DRAM cell retention time; DRAMs; SDRAM; TID effect; displacement damage effect; proton beams; stuck bits;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2015.2392851
