Guillaume Celi scite author profile

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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LVI detection on passive structure in advance CMOS technology: New opportunities for device analysis

Celi

Dudit

Parrassin

et al. 2011

Microelectronics Reliability

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Facing the defect characterization and localization challenges of bridge defects on a submicronic technology (45nm and below)

Celi

Dudit

Perdu

et al. 2010

Microelectronics Reliability

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Guillaume Celi

Time Resolved Imaging: From logical states to events, a new and efficient pattern matching method for VLSI analysis

Optical probing (EOFM / TRI): A large set of complementary applications for ultimate VLSI

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

LVI detection on passive structure in advance CMOS technology: New opportunities for device analysis

Facing the defect characterization and localization challenges of bridge defects on a submicronic technology (45nm and below)

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