Title :
A low-power and area-efficient radiation-hard redundant flip-flop, DICE ACFF, in a 65 nm thin-BOX FD-SOI
Author :
Kubota, K. ; Masuda, Masahiro ; Furuta, J. ; Manzawa, Y. ; Kanda, S. ; Kobayashi, Kaoru ; Onodera, Hidetoshi
Abstract :
In this paper, we propose a low-power area-efficient redundant flip-flops for soft errors, called DICE-ACFF. Its structure is based on the reliable DICE (Dual Interlocked storage CEll) and the low-power ACFF (Adaptive-Coupling Flip-Flop). It achieves lower power at lower data-activity. We designed DICE-FF and DICE-ACFF using 65 nm conventional bulk and thin-BOX FD-SOI (Silicon on Thin-BOX, SOTB) processes. Its area is twice as large as the conventional DFF. As for power dissipation, DICE ACFF achieves lower power than the conventional DFF below 20% data activity. When data activity is 0%, its power is half of the DFF. As for soft error rates DICE ACFFs are 1.5x stronger than conventional DICE FFs by circuit-level simulations to estimate critical charge. No SEU is observed on the DICE ACFF by alpha-particle irradiation at 1.2V on the bulk and and SOTB chips. The soft error rates of the DFF of the SOTB chip is 1/200 compared with that of the bulk chip.
Keywords :
MOS logic circuits; buried layers; flip-flops; integrated circuit design; integrated circuit reliability; low-power electronics; radiation hardening (electronics); silicon-on-insulator; DICE-ACFF; SOTB process; adaptive coupling flip-flop; area efficient flip-flop; critical charge estimation; dual interlocked storage CEll; low power flip-flop; radiation hard flip-flop; redundant flip-flop; single event upset; size 65 nm; soft errors; thin-BOX FD-SOI; Arrays; Clocks; Error analysis; Latches; Layout; MOS devices; Tunneling magnetoresistance;
Conference_Titel :
Radiation and Its Effects on Components and Systems (RADECS), 2013 14th European Conference on
Conference_Location :
Oxford
DOI :
10.1109/RADECS.2013.6937380
