Your search keyword '"J. Dreute"' showing total 2 results

1. Heavy ion microscopy of single event upsets in CMOS SRAMs

Author

L. Adams, Reno Harboe-Sorensen, J. Dreute, W. Heinrich, B.E. Fischer, S. Metzger, H. Röcher, and Publica

Subjects

Physics, Nuclear and High Energy Physics, Microprobe, business.industry, Electrical engineering, Analytical chemistry, Integrated circuit, Upset, Charged particle, Ion, law.invention, Nuclear Energy and Engineering, CMOS, Single event upset, law, Static random-access memory, Electrical and Electronic Engineering, business

Abstract

The single event upset (SEU) imaging has been applied at the GSI heavy ion microprobe to determine the sensitivity of integrated circuits (IC) to heavy ion irradiation. This method offers the possibility to directly image those parts of an IC which are sensitive to ion-induced malfunctions. By a 3-dimensional simulation of charge collection across p-n-micro-junctions, we can predict SEU cross-sections. For a MHS65162 2k x 8bit CMOS SRAM we found two regions per bit with different sensitivity and measured a total cross-section of (71/spl plusmn/18) /spl mu/m/sup 2/ for a bitflip per cell and simulated 60 /spl mu/m/sup 2/ with an argon beam of 1.4 MeV/nucl. (LET of 19.7 MeV/(mg/cm/sup 2/)). >

Published

1994

2. Study of SEUs generated by high energy ions

Author

Reno Harboe-Sorensen, H. Röcher, L. Adams, J. Dreute, and W. Heinrich

Subjects

Nuclear and High Energy Physics, Engineering, business.industry, Electrical engineering, Charge (physics), Integrated circuit, Upset, Charged particle, law.invention, Computational physics, Ion, Computer Science::Hardware Architecture, Tilt (optics), Nuclear Energy and Engineering, CMOS, law, Electrical and Electronic Engineering, Mathematics::Representation Theory, Nucleon, business

Abstract

Using 1 GeV/nucleon ions SEUs have been studied in two types of CMOS-SRAMs with respect to tilt angle and tilt direction. Tracks of upset bits, which have been observed under large tilt angles, were used to determine the charge collection depth in these devices. >

Published

1994