Title :
Combining GEANT4 and TIARA for Neutron Soft Error-Rate Prediction of 65 nm Flip-Flops
Author :
Uznanski, Slawosz ; Gasiot, Gilles ; Roche, Philippe ; Semikh, Sergey ; Autran, Jean-Luc
Author_Institution :
Technol. R&D, STMicroelectron., Crolles, France
Abstract :
Experimental neutron characterizations of standard and radiation-hardened-by-design (RHBD) flip-flops (FFs) are compared to combined GEANT4 and TIARA simulations. Good agreement is found between experiment and simulation for both architectures exhibiting soft error-rate (SER) values ranging over more than two decades. In-depth analysis of TIARA simulation results demonstrates that different underlying mechanisms are at the origin of observed soft errors: neutron-silicon (n-Si) elastic scattering for standard 65 nm FF while multiproduct nuclear reactions are for the RHBD structure. Finally, TIARA simulation results for monoenergetic neutron sources and atmospheric-like (i.e., synthetic) neutron spectra are discussed together with their impact on SER.
Keywords :
flip-flops; neutron sources; neutron spectra; radiation hardening (electronics); GEANT4; TIARA simulation; atmospheric-like spectra neutron; in-depth analysis; monoenergetic neutron sources; multiproduct nuclear reactions; neutron soft error-rate prediction; neutron-silicon elastic scattering; radiation-hardened-by-design flip-flops; soft error-rate values; standard flip-flops; Flip-flops; Monte Carlo methods; Neutrons; Radiation hardening; Flip-flop (FF); Monte Carlo simulation; neutron soft error rate; radiation hardened by design (RHBD); soft error rate (SER); tool suite for radiation reliability assessment (TIARA);
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2011.2170853
