Title :
Power-aware soft error hardening via selective voltage scaling
Author :
Wu, Kai-Chiang ; Marculescu, Diana
Author_Institution :
Dept. of Electr. & Comput. Eng., Carnegie Mellon Univ., Pittsburgh, PA
Abstract :
Nanoscale integrated circuits are becoming increasingly sensitive to radiation-induced transient faults (soft errors) due to current technology scaling trends, such as shrinking feature sizes and reducing supply voltages. Soft errors, which have been a significant concern in memories, are now a main factor in reliability degradation of logic circuits. This paper presents a power-aware methodology using dual supply voltages for soft error hardening. Given a constraint on power overhead, our proposed framework can minimize the soft error rate (SER) of a circuit via selective voltage scaling. On average, circuit SER can be reduced by 33.45% for various sizes of transient glitches with only 11.74% energy increase. The overhead in normalized power-delay-area product per 1% SER reduction is 0.64%, 1.33X less than that of existing state-of-the-art approaches.
Keywords :
integrated circuit reliability; low-power electronics; nanoelectronics; power aware computing; radiation effects; dual supply voltages; nanoscale integrated circuits; normalized power-delay-area product; power overhead; power-aware soft error hardening; selective voltage scaling; Combinational circuits; Computer errors; Degradation; Error correction codes; Flip-flops; Logic circuits; Logic gates; Robustness; Sequential circuits; Voltage;
Conference_Titel :
Computer Design, 2008. ICCD 2008. IEEE International Conference on
Conference_Location :
Lake Tahoe, CA
Print_ISBN :
978-1-4244-2657-7
Electronic_ISBN :
1063-6404
DOI :
10.1109/ICCD.2008.4751877
