Title :
Power-Planning-Aware Soft Error Hardening via Selective Voltage Assignment
Author :
Kai-Chiang Wu ; Marculescu, Diana
Author_Institution :
Dept. of Electr. & Comput. Eng., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
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-planning-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 assignment. In the 70-nm predictive technology model, circuit SER can be reduced by 23% on top of SER-aware gate resizing. For power-planning awareness, a bi-partitioning technique based on a simplified version of the Fiduccia-Mattheyses (FM) algorithm is presented. The simplified FM-based partitioning refines the result of selective voltage assignment by decreasing the number of connections across voltage islands, while maintaining the SER reduction that has been accomplished.
Keywords :
integrated circuit reliability; logic circuits; radiation hardening (electronics); FM algorithm; Fiduccia-Mattheyses algorithm; SER-aware gate resizing; bi-partitioning technique; circuit SER minimization; dual-supply voltages; logic circuit reliability degradation; power overhead; power-planning-aware methodology; power-planning-aware soft error hardening; predictive technology model; selective voltage assignment; simplified FM-based partitioning; size 70 nm; voltage islands; Attenuation; Delay; Error analysis; Heuristic algorithms; Integrated circuit modeling; Inverters; Logic gates; Partitioning; reliability; soft error rate (SER); soft errors; voltage assignment;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2012.2236658
