In certain embodiments, a method for designing a semiconductor device includes generating a two-dimensional design for fabricating chiplets on a semiconductor substrate. The chiplets are component levels for a multi-chip integrated circuit. The two-dimensional design includes a first layout for alignment features and semiconductor structures to be formed on a first surface of a first chiplet and a second layout for alignment features and semiconductor structures to be formed on a first surface of a second chiplet. The second chiplet is adjacent to the first chiplet on the semiconductor substrate. The second layout is a mirror image of the first layout across a reference line shared by the first chiplet and the second chiplet. The first surface of the first chiplet and the first surface of the second chiplet are both either top surfaces or bottom surfaces. The method further includes generating a photomask according to the design.

A 3D semiconductor device, the device including: a first die including first transistors and a first interconnect; a second die including second transistors and a second interconnect; and a third die including third transistors and a third interconnect, where the first die is overlaid by the second die, where the first die is overlaid by the third die, where the first die has a first die area and the second die has a second die area, where the first die area is at least 20% larger than the second die area, where the second die is pretested, where the second die is bonded to the first die, where the bonded includes metal to metal bonding, where the first die includes at least two first alignment marks positioned close to a first die edge of the first die, where the second die is aligned to the first die with less than 800 nm alignment error, where the second die includes at least two second alignment marks positioned close to a second die edge of the second die, and where the third die is bonded to the first die.

A method for fabricating a chip scale package, comprising: providing a wafer; applying a polymer resin on at least part of a first surface of the wafer and to one or more sides of the wafer; and applying a compression mold on at least part of a second surface of the wafer and to one or more sides of the wafer, said first and second surfaces opposing each other.

A 3D semiconductor device, the device including: a first die including first transistors and first interconnect; and a second die including second transistors and second interconnect, where the first die is overlaid by the second die, where the first die has a first die area and the second die has a second die area, where the first die area is at least 10% larger than the second die area, where the second die is pretested, where the second die includes an array of memory cells, where the first die includes control logic to control reads and writes to the array of memory cells, where the second die is bonded to the first die, and where the bonded includes hybrid bonding.

An apparatus for manufacturing a display device and a method for manufacturing a display device are provided. According to an exemplary embodiment of the present disclosure, an apparatus for manufacturing a display device includes: a pressing pad including a body portion and a vision hole penetrating the body portion; a vision camera above the vision hole; and a suction picker near the pressing pad.

A stacked semiconductor device is provided, which includes a first die, a second die and a heat dissipating layer. The first die has a pre-determined size. The second die is bonded to the first die using a dielectric material, wherein the second die is smaller than the first die. The heat dissipating layer is surrounding the second die, wherein the heat dissipating layer has an outer dimension that is equal to the size of the first die.

A method for fabricating a chip scale package, comprising: providing a wafer; applying a polymer resin on at least part of a first surface of the wafer and to one or more sides of the wafer; and applying a compression mold on at least part of a second surface of the wafer and to one or more sides of the wafer, said first and second surfaces opposing each other.

A stacked semiconductor device is provided, which includes a first die, a second die and a heat dissipating layer. The first die has a pre-determined size. The second die is bonded to the first die using a dielectric material, wherein the second die is smaller than the first die. The heat dissipating layer is surrounding the second die, wherein the heat dissipating layer has an outer dimension that is equal to the size of the first die.

A semiconductor package includes a package substrate, a first semiconductor device on an upper surface of the package substrate, a second semiconductor device on an upper surface of the first semiconductor device, a first connection bump attached to a lower surface of the package substrate, a second connection bump interposed between and electrically connected to the package substrate and the first semiconductor device, and a third connection bump interposed between and electrically connected to the first semiconductor device and the second semiconductor device. The first semiconductor device has an edge and a step at the edge.

A stack package includes stacked semiconductor dies and an encapsulant. The encapsulant is formed to cover sides of the stacked semiconductor dies. A first semiconductor die of the stack package has an overhang portion that protrudes farther into the encapsulant than a second semiconductor die of the stack package.