Elastic modulus mapping of a chip carrier in a flip chip package

Abstract

A computer-implemented method provides an elastic modulus map of a chip carrier of a flip chip package. Design data including dielectric and conductive design elements of each of vertically aligned sub-areas of each of the layers of the chip carrier are modeled as springs to provide the elastic modulus map. Determining the elastic modulus of the sub-areas of the chip carrier identifies probable mechanical failure sites during chip-join and cools down of the flip chip package. Modifying a footprint of solder bumps to the chip carrier reduces stresses applied to the identified probable mechanical failure sites. Modifying the chip carrier design to reduce a stiffness of sub-areas associated with identified probable mechanical failure sites also reduces stresses from chip-join and cool-down.