Title :
Numerical simulation of stress evolution during electromigration in IC interconnect lines
Author :
Ye, Hua ; Basaran, Cemal ; Hopkins, Douglas C.
Author_Institution :
UB Electron. Packaging Lab., State Univ. of New York, Buffalo, NY, USA
Abstract :
A finite element simulation of stress evolution in thin metal film during electromigration is reported in this paper. The electromigration process is modeled by a coupled diffusion- mechanical partial differential equations (PDEs). The PDEs are implemented with a plane strain formulation and numerically solved with the finite element (FE) method. The evolutions of hydrostatic stress, each component of the deviatoric stress tensor, and Von Mises´ stress were simulated for several cases with different line lengths and current densities. Two types of displacement boundary conditions are considered. The simulation results are compared with Korhonen´s analytical model and Black and Blech´s experimentalesults.
Keywords :
current density; electromigration; finite element analysis; integrated circuit packaging; integrated circuit reliability; partial differential equations; IC interconnect lines; Korhonen´s analytical model; Von Mises´ stress; coupled diffusionmechanical partial differential equations; current densities; deviatoric stress tensor; displacement boundary conditions; electromigration; finite element simulation; hydrostatic stress; line lengths; plane strain formulation; stress evolution; thin metal film; Analytical models; Capacitive sensors; Current density; Electromigration; Finite element methods; Lattices; Numerical simulation; Power system modeling; Tensile stress; Thermal stresses;
Journal_Title :
Components and Packaging Technologies, IEEE Transactions on
DOI :
10.1109/TCAPT.2003.817877
