An electronic device includes a first structure body and a second structure body. The first structure body includes a first base body, a first bonding electrode and a first hard part. The second structure body includes a second base body, and a second bonding electrode. The first bonding electrode and the second bonding electrode are bonded to each other between the first base body and the second base body. The first hard part is located between the first base body and the second base body. The first hard part is positioned within an area in which the first bonding electrode is located when viewed along a first direction. The first direction is from the first base body toward the first bonding electrode. The first hard part has a higher hardness than the first bonding electrode.

The present disclosure generally relates to an electronic assembly. The electronic assembly may include a substrate including a plurality of first contact pads, a plurality of second contact pads, and a plurality of third contact pads. The electronic assembly may include a first device including a first footprint coupled to the substrate at a first surface. The electronic assembly may include a frame arranged between the first device and the substrate, the frame including a dielectric material, the frame further including a main frame extending around the first device, and further including a plurality of sub-frames encircling the plurality of first contact pads and the plurality of second contact pads on the substrate, wherein the frame may further include a conductive layer extending at least partially across the main frame.

A method for testing a stacked memory device having a plurality of memory chips connected to and arranged on top of a logic chip for a connection defect is disclosed. The method may include testing a memory chip by writing a data value into a first location in the memory chip, reading a data value from the first location, detecting a first bit error and recording a bit number of the first bit error. The method may also include testing the memory chip by writing a data value into a second location in the memory chip, reading a data value from the second location in the memory chip, detecting a second bit error and recording a bit number of the second bit error. The method may also include replacing a connection common to the first and second bit errors with a spare connection.