Design of SRAM-Based Low-Cost SEU Monitor for Self-Adaptive Multiprocessing Systems

Abstract

Cosmic radiation phenomena such as Solar Particle Events cause high radiation flux lasting from hours to days, thus increasing the probability of Single-Event Upsets (SEUs) for several orders of magnitude. In space applications it is necessary, therefore, to monitor the SEU rate in order to ensure timely detection of high radiation levels and efficient protection of radiation-sensitive circuits. This work proposes an approach combining the SEU monitoring and data storage functions in the same on-chip Static Random Access Memory (SRAM) module, with negligible cost and overheads compared to traditional stand-alone SEU monitors. Furthermore, it also enables the detection of permanent faults in SRAM. The proposed monitor is intended to be further integrated into a highly dependable and self-adaptive multiprocessing platform in which it will drive the selection of the multiprocessor operating modes. Thus, a dynamic trade-off between reliability, performance and power consumption in real-time can be achieved.