Wafer-level testing method for singulated 3D-stacked chip cubes

Disclosed is a wafer level testing method for testing a plurality of singulated 3D-stacked chip cubes by utilizing adjustable wafer maps to adjust the pick-and-place positions of the cubes on a carrier wafer. The wafer maps have a plurality of probe-card activated regions each including a plurality of component-attaching regions. Two wafer-level testing steps are performed on the cubes disposed on the carrier wafer according to the wafer maps. By analyzing the electrical testing results of the trial-run wafer-level testing step from the original wafer map, some prone-to-overkill component-attaching regions are confirmed and to create a corrected wafer map which the prone-to-overkill component-attaching regions are excluded from probe-card activated regions. Then, according to the corrected wafer map, cubes are disposed on the carrier wafer without disposing in the prone-to-overkill component-attaching regions. Accordingly, the real-production wafer-level testing step can be run smoothly without unnecessary shut down of adjustment or repair leading to the maximum productivity without overkill issues.