A Stage-Wise Soft-Error Detection Scheme for Flip-Flop Based Pipelines in Secure Cloud Servers

The shrinking feature sizes make transistors increasingly susceptible to soft errors, which can severely degrade the systems’ RAS (Reliability, Availability, and Serviceability). The tough challenge results from not only increasing SER (soft error rate) of storage cells, but also the increasing susceptibility of combinational logics to soft errors. How to efficiently detect soft errors becomes the primary problem in the Backward Error Recovery (BER) schemes that are cost-effective in soft error tolerance. This paper presents a soft error detection scheme, AUDITOR, for flip-flop based pipelines. The AUDITOR copes with both types of soft errors—single event upset (SEU) and single event transient (SET). We propose a “local-audit” fault detection mechanism, by which each pipeline stage is verified independently and the verifying result registers with a dedicated “audit” bit (V-bit). All the V-bits are distributed across the whole pipeline and synergically monitor the pipeline execution. To relax the constraint of SET detection capability imposed by the inherent fully synchronous operation mode in flip-flop based pipelines, we firstly propose using path-compensation technique to address this constraint. Furthermore, a reuse-based design paradigm is employed to reduce the implementation complexity and area overhead. The AUDITOR possesses robust detection capability and short detection latency, at the expense of about 29 % and 50 % increase in area and power consumption, respectively.