N. Buard scite author profile

International audienceThis paper presents a methodology for analyzing the behavior of nanometer technologies regarding "Multiple Event Transients" (MET) caused by nuclear reaction induced by atmospheric neutrons. For the first time, currents collected by several sensitive areas of an ASIC cell resulting from a nuclear reaction are addressed by simulation. Libraries of several thousand types of currents are obtained for neutron energy range between 1 and 200 MeV. Group of currents are simultaneously injected at SPICE level and their effects are monitored on the cell output. Following an amplitude criterion, output transient duration and associated occurrence probability are recorded. A 130nm NAND gate from ATMEL Corporation is first used to illustrate the methodology and a comparison between Single Event Transients and Multiple Event Transients effects is presented. Finally, results regarding five different combinational cells in the ATMEL 130nm library are presented and discussed

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Backside SEU laser testing for commercial off-the-shelf SRAMs

Darracq

Lapuyade

Buard³

et al. 2002

IEEE Trans. Nucl. Sci.

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SEB Characterization of Commercial Power MOSFETs With Backside Laser and Heavy Ions of Different Ranges

Luu

Miller

Poirot³

et al. 2008

IEEE Trans. Nucl. Sci.

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Sensitive Volume and Triggering Criteria of SEB in Classic Planar VDMOS

Luu

Austin

Miller

et al. 2010

IEEE Trans. Nucl. Sci.

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N. Buard

Characterization of Single-Event Burnout in Power MOSFET Using Backside Laser Testing

Multiple Event Transient Induced by Nuclear Reactions in CMOS Logic Cells

Backside SEU laser testing for commercial off-the-shelf SRAMs

SEB Characterization of Commercial Power MOSFETs With Backside Laser and Heavy Ions of Different Ranges

Sensitive Volume and Triggering Criteria of SEB in Classic Planar VDMOS

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