SDRAM Architecture & Single Event Effects Revealed with Laser

Author

Bougerol, A. ; Miller, F. ; Buard, N.

Author_Institution

Innovation Works, Eur. Aeronaut. Defense & Space Co., Suresnes

fYear

2008

fDate

7-9 July 2008

Firstpage

283

Lastpage

288

Abstract

This paper describes several methodologies based on a pulsed laser beam to reveal the architecture of a high integrated SDRAM, and the different classes of Single Event Effects that can occur due to cosmic radiations. At cell level, laser is used to reveal an important technological parameter: the lithography process. At memory array level, laser is a powerful tool to retrieve cell physical arrangements, which is essential to know the number of bits that can be involved in a MBU. Finally at device level, laser is used to trigger different categories of Single Event Effects, and specific events like SEFIs and SELs can be precisely located. All these information allow to get an estimation of heavy ion saturated cross section for each events, which is usually difficult to obtain with particle accelerators.

Keywords

DRAM chips; laser beam applications; lithography; SDRAM architecture; cell physical arrangements; cosmic radiations; heavy ion saturated cross section; lithography process; memory array level; particle accelerators; pulsed laser beam; single event effects; Capacitors; Laser beams; Laser theory; Lithography; Optical arrays; Optical pulses; Random access memory; SDRAM; Surface emitting lasers; Testing; Laser; SDRAM; SEFI; Single Event Effect;

fLanguage

English

Publisher

ieee

Conference_Titel

On-Line Testing Symposium, 2008. IOLTS '08. 14th IEEE International

Conference_Location

Rhodes

Print_ISBN

978-0-7695-3264-6

Type

conf

DOI

10.1109/IOLTS.2008.40

Filename

4567107