Title :
Efficient multibit Error Correction for memory applications using euclidean geometry codes
Author :
Reviriego, Pedro ; Flanagan, Mark F. ; Maestro, Juan A.
Abstract :
Soft errors caused by radiation particles are becoming an increasingly important issue for memory reliability. Traditionally, Single Error Correction (SEC) codes have been used to correct soft errors. Such codes can correct one error per memory word, but as errors become more frequent they may be insufficient. More complex error correction codes (ECCs) could be used, but they typically require complex decoders which impact memory area and speed. In this paper, the use of Euclidean geometry (EG) Codes for memory applications is studied. The results show that these codes, which provide powerful error correction capabilities, can be implemented efficiently in terms of area and latency.
Keywords :
circuit reliability; decoding; digital storage; error correction codes; geometry; radiation hardening (electronics); ECC; EG code; Euclidean geometry code; SEC code; complex decoder; error per memory word correction; memory application; memory reliability; multibit error correction code efficiency; radiation particle; single error correction code; soft error; Decoding; Equations; Error correction codes; Geometry; Logic gates; Mathematical model; Parity check codes; Euclidean geometry codes; Soft errors; error correction codes (ECCs); memories;
Conference_Titel :
Radiation and Its Effects on Components and Systems (RADECS), 2011 12th European Conference on
Conference_Location :
Sevilla
Print_ISBN :
978-1-4577-0585-4
DOI :
10.1109/RADECS.2011.6131390
