Chris Shaw scite author profile

Resistive random access memory based on TiN/HfOx/TiN has been fabricated, with the stoichiometry of the layer altered through control of atomic layer deposition (ALD) temperature. Sweep and pulsed electrical characteristics were extracted before and after gamma irradiation. Monoclinic deposited at 400 did not result in resistive switching. Deposition at 300 and 350 resulted in cubic which switched successfully. Both stoichiometric and sub-oxides result in similar memory characteristics. All devices are shown to be radiation hard up to 10 Mrad(Si), independent of stoichiometry.

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Reduction of the acquisition time for CMOS time-resolved photon emission by optimized IR detection

Ispasoiu¹,

Crawford²,

Johnston³

et al. 2006

Microelectronics Reliability

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PC Card Based Optical Probing of Advanced Graphics Processor Using Time Resolved Emission

Marks

Ton

Block³

et al. 2003

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Internal node timing probing of silicon integrated circuits (ICs) has been a mainstay of the microelectronics industry since very early in its history. In recent years, however, due in part to the increase in the number of interconnection layers and continued proliferation of packaging techniques exposing only the silicon substrate, conventional probing technologies such as e-beam and mechanical probing have become cumbersome or impractical. In an effort to continue transistor-level probing, backside optical probing technologies have been developed and adopted [1]. Chronologically, such techniques include picosecond image circuit analysis (PICA)[2], laser voltage probing (LVP)[3], and dynamic or time-resolved emission (TRE)[4]. In typical examples of backside probing the device under test (DUT) relies on device stimulation from automatic test equipment (ATE) or equivalent bench top setup. This generally requires a specially designed DUT card designed to accommodate a low-profile socket and lid. The DUT card, which is significantly smaller than the tester motherboard, is designed to fit within the chamber opening of the probe system in order to interact with the optical column. Tester stimulation of packaged parts, however, does not address the need to probe the DUT in-situ and in the intended application, such as a PC board. It is often desirable to probe the DUT under conditions typical of the final product or running standardized application based tests. We present here this application and have addressed some of the challenges associated with PC card based optical probing and show successfully performed time-resolved emission on a second-generation advanced graphics processor in a standard graphics card.

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A radiation hard 1750 mu P fabricated on improved silicon on sapphire

Kerr

Garraway

Shaw

et al.

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Chris Shaw

Total ionizing dose response of fluorine implanted Silicon-On-Insulator buried oxide

Total Dose Hardness of <formula formulatype="inline"> <tex Notation="TeX">${\rm TiN}/{\rm HfO}_{\rm x}/{\rm TiN}$</tex></formula> Resistive Random Access Memory

Reduction of the acquisition time for CMOS time-resolved photon emission by optimized IR detection

PC Card Based Optical Probing of Advanced Graphics Processor Using Time Resolved Emission

A radiation hard 1750 mu P fabricated on improved silicon on sapphire

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