Semiconductor devices, methods of manufacture thereof, and semiconductor device packages are disclosed. In one embodiment, a semiconductor device includes an insulating material layer having openings on a surface of a substrate. One or more insertion bumps are disposed over the insulating material layer. The semiconductor device includes signal bumps having portions that are not disposed over the insulating material layer.

A patch structure of an integrated circuit package comprises a core having a first side facing downwards and a second side facing upwards. A first solder resist (SR) layer is formed on the first side of the core, wherein the first SR layer comprises a first layer interconnect (FLI) and has a first set of one or more microbumps thereon to bond to one or more logic die. A second solder resist (SR) layer is formed on the second side of the core, wherein the second SR layer has a second set of one or more microbumps thereon to bond with a substrate. One or more bridge dies includes a respective sets of bumps, wherein the one or more bridge dies is disposed flipped over within the core such that the respective sets of bumps face downward and connect to the first set of one or more microbumps in the FLI.

A semiconductor package including a first substrate including a first bump pad and a filling compensation film (FCF) around the first bump pad; a second substrate facing the first substrate and including a second bump pad; a bump structure (BS) in contact with the first bump pad and the second bump pad; and a non-conductive film (NCF) surrounding the BS and between the first substrate and the second substrate, wherein the NCF covers an upper surface and an edge of the FCF.

A semiconductor package including a first substrate including a first bump pad and a filling compensation film (FCF) around the first bump pad; a second substrate facing the first substrate and including a second bump pad; a bump structure (BS) in contact with the first bump pad and the second bump pad; and a non-conductive film (NCF) surrounding the BS and between the first substrate and the second substrate, wherein the NCF covers an upper surface and an edge of the FCF.

A package that includes a first integrated device comprising a first plurality of interconnects; a plurality of solder interconnects coupled to the first plurality of interconnects; a second integrated device comprising a second plurality of interconnects, wherein the second integrated device is coupled to the first integrated device through the second plurality of interconnects, the plurality of solder interconnects and the first plurality of interconnects; a polymer layer located between the first integrated device and the second integrated device; and a plurality of spacer balls located between the first integrated device and the second integrated device.

A package that includes a first integrated device comprising a first plurality of interconnects; a plurality of solder interconnects coupled to the first plurality of interconnects; a second integrated device comprising a second plurality of interconnects, wherein the second integrated device is coupled to the first integrated device through the second plurality of interconnects, the plurality of solder interconnects and the first plurality of interconnects; a polymer layer located between the first integrated device and the second integrated device; and a plurality of spacer balls located between the first integrated device and the second integrated device.

The disclosed technique may be used to electrically and physically connect semiconductor wafers. The wafer may utilize a thick dielectric. Indium bumps may be deposited and patterned in a dielectric film with a small diameter, tall height and substantially uniform in size and shape. The indium can be melted to create small grain size and uniform height bumps. The dielectric film may feature trenches around the indium bumps to prevent shorting of pixels when pressed together.

The disclosed technique may be used to electrically and physically connect semiconductor wafers. The wafer may utilize a thick dielectric. Indium bumps may be deposited and patterned in a dielectric film with a small diameter, tall height and substantially uniform in size and shape. The indium can be melted to create small grain size and uniform height bumps. The dielectric film may feature trenches around the indium bumps to prevent shorting of pixels when pressed together.

Disclosed are examples of integrated circuit (IC) structures and techniques to fabricate IC structures. Each IC package may include a die (e.g., a flip-chip (FC) die) and one or more die interconnects to electrically couple the die to a substrate. The die interconnect may include a pillar, a wetting barrier on the pillar, and a solder cap on the wetting barrier. The wetting barrier may be wider than the pillar. The die interconnect may also include a low wetting layer formed on the wetting barrier.

Disclosed are examples of integrated circuit (IC) structures and techniques to fabricate IC structures. Each IC package may include a die (e.g., a flip-chip (FC) die) and one or more die interconnects to electrically couple the die to a substrate. The die interconnect may include a pillar, a wetting barrier on the pillar, and a solder cap on the wetting barrier. The wetting barrier may be wider than the pillar. The die interconnect may also include a low wetting layer formed on the wetting barrier.