Title :
Memory Reliability Model for Accumulated and Clustered Soft Errors
Author :
Lee, Soonyoung ; Baeg, Sanghyeon ; Reviriego, Pedro
Author_Institution :
Sch. of Electr. Eng. & Comput. Sci., Hanyang Univ., Ansan, South Korea
Abstract :
The soft error rates of memories are increased by high-energy particles as technology shrinks. Single-error correction codes (SEC), scrubbing techniques, and interleaving distance (ID) schemes are the most common approaches for protecting memories from soft errors. It is essential to employ analytical models to guide the selection of the interleaving distance; relying on rough estimates may lead to unreasonable design choices. The analytical model proposed in this paper includes the row clustering effects of the accumulated upsets, and was able to estimate the failure probability with a difference of only 0.015% compared to the test data for a 45 nm static random access memory (SRAM) design.
Keywords :
SRAM chips; error correction codes; failure analysis; interleaved storage; pattern clustering; probability; reliability; error correction codes; failure probability estimation; interleaving distance schemes; memory protection; memory reliability model; row clustering effects; scrubbing techniques; size 45 nm; soft error rates; static random access memory; Error correction codes; Memory architecture; Microprocessors; Probability density function; Random access memory; Reliability; Compound-poisson; MBU; MCU; SBU; interleaving distance; scrubbing interval; soft error;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2011.2164555
