Multiple Cell Upset Classification in Commercial SRAMs

G. Tsiligiannis; L. Dilillo; A. Bosio; P. Girard; S. Pravossoudovitch; A. Todri; A. Virazel; H. Puchner; C. Frost; F. Wrobel; F. Saigne

doi:10.1109/TNS.2014.2313742

Multiple Cell Upset Classification in Commercial SRAMs

G. Tsiligiannis
, L. Dilillo
, A. Bosio
, P. Girard
, S. Pravossoudovitch
, A. Todri
, A. Virazel
, H. Puchner
, C. Frost
, F. Wrobel
, F. Saigne

Research output: Contribution to journal › Article › Academic › peer-review

61 Citations (Scopus)

Abstract

While single bit upsets on memories and storage elements are mitigated with either the use of redundancy and/or error correction codes, Multiple-Cell-Upsets (MCU) may become a significant threat to the integrity of systems when the corrupted cells belong to the same word. In this paper, we identify four types of MCUs as they were recorded during several irradiations under an atmospheric-like neutron beam (ISIS facility). An analysis is done on the underlying reasons of occurrence of each MCU type, as well as their shapes and sizes in order to classify them. The results of this work concern a commercial 90 nm SRAM that was tested under an atmospheric neutron beam in static and dynamic mode. It is shown that, when the memory is in dynamic mode, not only the typical MCUs that involve a few flipped cells may appear but also large clusters of upsets are possible to occur with hundreds or even thousands of cells being affected.

Original language	English
Pages (from-to)	1747-1754
Journal	IEEE Transactions on Nuclear Science
Volume	61
Issue number	4
DOIs	https://doi.org/10.1109/TNS.2014.2313742
Publication status	Published - 1 Aug 2014
Externally published	Yes

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title = "Multiple Cell Upset Classification in Commercial SRAMs",

abstract = "While single bit upsets on memories and storage elements are mitigated with either the use of redundancy and/or error correction codes, Multiple-Cell-Upsets (MCU) may become a significant threat to the integrity of systems when the corrupted cells belong to the same word. In this paper, we identify four types of MCUs as they were recorded during several irradiations under an atmospheric-like neutron beam (ISIS facility). An analysis is done on the underlying reasons of occurrence of each MCU type, as well as their shapes and sizes in order to classify them. The results of this work concern a commercial 90 nm SRAM that was tested under an atmospheric neutron beam in static and dynamic mode. It is shown that, when the memory is in dynamic mode, not only the typical MCUs that involve a few flipped cells may appear but also large clusters of upsets are possible to occur with hundreds or even thousands of cells being affected.",

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AU - Tsiligiannis, G.

AU - Dilillo, L.

AU - Bosio, A.

AU - Girard, P.

AU - Pravossoudovitch, S.

AU - Todri, A.

AU - Virazel, A.

AU - Puchner, H.

AU - Frost, C.

AU - Wrobel, F.

AU - Saigne, F.

PY - 2014/8/1

Y1 - 2014/8/1

N2 - While single bit upsets on memories and storage elements are mitigated with either the use of redundancy and/or error correction codes, Multiple-Cell-Upsets (MCU) may become a significant threat to the integrity of systems when the corrupted cells belong to the same word. In this paper, we identify four types of MCUs as they were recorded during several irradiations under an atmospheric-like neutron beam (ISIS facility). An analysis is done on the underlying reasons of occurrence of each MCU type, as well as their shapes and sizes in order to classify them. The results of this work concern a commercial 90 nm SRAM that was tested under an atmospheric neutron beam in static and dynamic mode. It is shown that, when the memory is in dynamic mode, not only the typical MCUs that involve a few flipped cells may appear but also large clusters of upsets are possible to occur with hundreds or even thousands of cells being affected.

AB - While single bit upsets on memories and storage elements are mitigated with either the use of redundancy and/or error correction codes, Multiple-Cell-Upsets (MCU) may become a significant threat to the integrity of systems when the corrupted cells belong to the same word. In this paper, we identify four types of MCUs as they were recorded during several irradiations under an atmospheric-like neutron beam (ISIS facility). An analysis is done on the underlying reasons of occurrence of each MCU type, as well as their shapes and sizes in order to classify them. The results of this work concern a commercial 90 nm SRAM that was tested under an atmospheric neutron beam in static and dynamic mode. It is shown that, when the memory is in dynamic mode, not only the typical MCUs that involve a few flipped cells may appear but also large clusters of upsets are possible to occur with hundreds or even thousands of cells being affected.

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DO - 10.1109/TNS.2014.2313742

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JO - IEEE Transactions on Nuclear Science

JF - IEEE Transactions on Nuclear Science

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Multiple Cell Upset Classification in Commercial SRAMs

Abstract

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