Antoine Reverdy scite author profile

As technology nodes continue to shrink, resistive opens have become increasingly difficult to detect using conventional methods such as AVC and PVC. The failure isolation method, Electron Beam Absorbed Current (EBAC) Imaging has recently become the preferred method in failure analysis labs for fast and highly accurate detection of resistive opens and shorts on a number of structures. This paper presents a case study using a two nanoprobe EBAC technique on a 28nm node test structure. This technique pinpointed the fail and allowed direct TEM lamella.

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Thermal Frequency Imaging: A New Application of Laser Voltage Imaging Applied on 40nm Technology

Celi

Dudit

Parrassin

et al. 2011

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For Very Deep submicron Technologies, techniques based on the analysis of reflected laser beam properties are widely used. The Laser Voltage Imaging (LVI) technique, introduced in 2009, allows mapping frequencies through the backside of integrated circuit. In this paper, we propose a new technique based on the LVI technique to debug a scan chain related issue. We describe the method to use LVI, usually dedicated to frequency mapping of digital active parts, in a way that enables localization of resistive leakage. Origin of this signal is investigated on a 40nm case study. This signal can be properly understood when two different effects, charge carrier density variations (LVI) and thermo reflectance effect (Thermal Frequency Imaging, TFI), are taken into account.

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Antoine Reverdy

Dynamic study of the thermal laser stimulation response on advanced technology structures

Localization of electrical active defects caused by reliability-related failure mechanism by the application of Lock-in Thermography

Electro Optical Terahertz Pulse Reflectometry, a non destructive technique to localize defects on various type of package

Precise Localization of 28 nm via Chain Resistive Defect Using EBAC and Nanoprobing

Thermal Frequency Imaging: A New Application of Laser Voltage Imaging Applied on 40nm Technology

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