Efficient mitigation of data and control flow errors in microprocessors

Author

Parra, Lucas ; Lindoso, A. ; Portela, Marta ; Entrena, L. ; Restrepo-Calle, Felipe ; Cuenca-Asensi, Sergio ; Martinez-Alvarez, Antonio

Author_Institution

Electron. Technol. Dept., Univ. Carlos III of Madrid, Leganes, Spain

fYear

2013

fDate

23-27 Sept. 2013

Firstpage

1

Lastpage

4

Abstract

The use of microprocessor-based systems is gaining importance in application domains where safety is a must. For this reason, there is a growing concern about the mitigation of SEU and SET effects. This paper presents a new hybrid technique aimed to protect both the data and the control-flow of embedded applications running on microprocessors. On one hand, the approach is based on software redundancy techniques for correcting errors produced in the data. On the other hand, control-flow errors can be detected by reusing the on-chip debug interface, existing in most modern microprocessors. Experimental results show an important increase in the system reliability even superior to two orders of magnitude, in terms of mitigation of both SEUs and SETs. Furthermore, the overheads incurred by our technique can be perfectly assumable in low-cost systems.

Keywords

error correction; microprocessor chips; radiation hardening (electronics); SET effect mitigation; SEU effect mitigation; control flow errors; efficient data mitigation; error correction; low-cost systems; microprocessor-based systems; on-chip debug interface; software redundancy techniques; system reliability; Clocks; Finite impulse response filters; Hardware; Microprocessors; Redundancy; Registers; Software; Single Event Transient; Single Event Upset; fault tolerance; microprocessor; soft error;

fLanguage

English

Publisher

ieee

Conference_Titel

Radiation and Its Effects on Components and Systems (RADECS), 2013 14th European Conference on

Conference_Location

Oxford

Type

conf

DOI

10.1109/RADECS.2013.6937381

Filename

6937381