Test cost optimization technique for the pre-bond test of 3D ICs

Abstract

Three-dimensional (3D) integration using through-silicon via (TSV) is an emerging technique for integrated circuit (IC) designs. A 3D IC consists of multiple dies vertically connected by TSVs. To ensure the yield of 3D ICs, each die should be tested before it is stacked, i.e., the pre-bond test. Typically, test pads are implemented in the die under test for the pre-bond test due to the limitation of current probing technologies. However, the additional test pads incur additional die area. In this paper, therefore, we propose a test cost optimization technique for the pre-bond test of 3D ICs. This technique attempts to minimize the number required power pads of each die in a wafer and the overall test time of the wafer. Simulation results show that reducing power pads can effectively reduce the number of required test pads and the wafer test time.