Title :
Determination of Cu-line EM Lifetime Criteria Using Physically Based TCAD simulations
Author :
Mankoo Lee ; Pramanik, D. ; Yong-Seog Oh ; Zudian Qin ; Avci, I. ; Simeonov, S. ; El Sayed, K. ; Balasingam, P.
Author_Institution :
Core Technol. Group, Intermolecular, Inc., San Jose, CA, USA
Abstract :
A physically based simulation methodology provides fast and practical EM lifetime prediction. We identified an “EM-aware” region to define the length dependence of Cu-lines under high current stress. For eventual calibration of 2× nm node Cu-lines, we analyzed the sensitivity trends of vacancy and void profiles as well as the mass transport mechanisms using a 3D TCAD tool. This includes electron flow dependency to explain line and via depletion effects for void formations under various EM stress conditions. We report a non-linearity in the length dependence on the EM failure jL product at ~9000 A/cm and a slight temperature dependence on the Blech Threshold (jL)c at ~2000 A/cm extracted at 300°C in the EM aware region.
Keywords :
calibration; copper; electromigration; failure analysis; technology CAD (electronics); 3D TCAD tool; Blech threshold; Cu; Cu-line EM lifetime criteria; EM failure; EM lifetime prediction; EM stress conditions; EM-aware region; TCAD simulations; calibration; current stress; electromigration; mass transport; temperature 300 degC; vacancy; void profiles; Current density; Equations; Mathematical model; Metals; Resistance; Sensitivity; Stress; dual damascene; electromigration; failure lifetime; interconnect; mass trasport; technology computer-aided design (TCAD); void formation;
Conference_Titel :
Reliability Physics Symposium (IRPS), 2013 IEEE International
Conference_Location :
Anaheim, CA
Print_ISBN :
978-1-4799-0112-8
Electronic_ISBN :
1541-7026
DOI :
10.1109/IRPS.2013.6532079
