Title :
The Impact of Delta-Rays on Single-Event Upsets in Highly Scaled SOI SRAMs
Author :
King, Michael P. ; Reed, Robert A. ; Weller, Robert A. ; Mendenhall, Marcus H. ; Schrimpf, Ronald D. ; Alles, Michael L. ; Auden, Elizabeth C. ; Armstrong, Sarah E. ; Asai, Makoto
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Vanderbilt Univ., Nashville, TN, USA
Abstract :
Monte-Carlo radiation transport simulations are used to quantify energy deposition from δ -rays in sensitive volumes representative of future SRAM technologies. The results show that single and multiple δ-ray events are capable of depositing sufficient energy to cause SEUs in nonadjacent SRAM cells separated by many micrometers. These results indicate the necessity of considering the variability of the charge track structure when evaluating the single event response of these highly scaled technology nodes. These effects have important implications forradiation hardening techniques that rely upon spatial separation of critical and redundant nodes, and simulation of device and circuit level response to heavy ions with respect to ion track structure.
Keywords :
Monte Carlo methods; SRAM chips; nuclear electronics; radiation hardening (electronics); silicon-on-insulator; transport processes; Monte-Carlo radiation transport simulations; charge track structure; circuit level; delta-rays impact; energy deposition; forradiation hardening techniques; heavy ions; highly scaled SOI SRAM; ion track structure; single-event upsets; Monte Carlo methods; Radiation hardening; SRAM chips; Single event upset; $delta$-ray; Monte Carlo; SRAM; inelastic scattering; single-event upset (SEU);
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2010.2085019
