Neutron-induced soft error analysis in MOSFETs from a 65nm to a 25 nm design rule using multi-scale Monte Carlo simulation method
Reliability Physics Symposium(2012)
摘要
We have analyzed terrestrial neutron-induced soft errors in MOSFETs from a 65 nm to a 25 nm design rule by means of multi-scale Monte Carlo simulation using PHITS-HyENEXSS code system. The resulting scaling trend of SERs per bit is still decreasing similar to other predictions. From this analysis, it is clarified that secondary He and H ions provide a major impact on soft errors with decreasing critical charge. It is also found that terrestrial neutrons with energies up to several hundreds of MeV have a significant contribution to soft errors regardless of design rule and critical charge.
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关键词
mosfet,monte carlo methods,helium,hydrogen,neutron effects,h,he,phits-hyenexss code system,critical charge,design rule,multiscale monte carlo simulation method,size 25 nm to 65 nm,terrestrial neutron induced soft error analysis,hyenexss,monte carlo simulation,neutron radiation effects,phits,soft errors,neutrons,ions,testing
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