A device and method of manufacture is provided that utilize a dummy pad feature adjacent contact pads. The contact pads may be contact pads in an integrated fan-out package in which a molding compound is placed along sidewalls of a die and the contact pads extend over the die and the molding compound. The contact pads are electrically coupled to the die using one or more redistribution layers. The dummy pad features are electrically isolated from the contact pads. In some embodiments, the dummy pad features partially encircle the contact pads and are located in a corner region of the molding compound, a corner region of the die, and/or an interface region between an edge of the die and the molding compound.

A package structure of a semiconductor device includes a first substrate, a second substrate, and a bonding layer. The bonding layer bonds the first substrate and the second substrate. The bonding layer includes an inner bonding pad pattern and an outer bonding pad pattern formed in a dielectric layer. The outer bonding pad pattern surrounds the inner bonding pad pattern. A first bonding pad density of the outer bonding pad pattern is greater than a second bonding pad density of the inner bonding pad pattern.

The present disclosure is directed to a wafer level chip scale package (WLCSP) with various combinations of contacts and Under Bump Metallizations (UBMs) having different structures and different amounts solder coupled to the contacts and UBMs. Although the contacts have different structures and the volume of solder differs, the total standoff height along the WLCSP remains substantially the same. Each portion of solder coupled to each respective contact and UBM includes a point furthest away from an active surface of a die of the WLCSP. Each point of each respective portion of solder is co-planar with each other respective point of the other respective portions of solder. Additionally, the contacts with various and different structures are positioned accordingly on the active surface of the die of the WLCSP to reduce failures that may result from the WLCSP being exposed to thermal cycling or the WLCSP being dropped.

A semiconductor structure includes a first substrate, a first dielectric layer disposed over the first substrate, a plurality of first bonding pads disposed in the first dielectric layer, a plurality of second bonding pads disposed in the first dielectric layer, a second substrate, and a second dielectric layer disposed over the second substrate. The first bonding pads have a first width. The second bonding pads have a second width greater than the first width. The second bonding pads are arranged to form a frame pattern surrounding the first bonding pads. A portion of the second dielectric layer is in physical contact with the second bonding pads. The first bonding pads and the second bonding pads are arranged to form a plurality of columns and a plurality of rows. Two of the second bonding pads are disposed at two opposite ends of each column and two opposite ends of each row.

A semiconductor device includes a substrate, a plurality of pads disposed over the substrate, and a solder mask disposed over the substrate. The substrate includes a pair of first edges parallel to each other, a pair of second edges orthogonal to the pair of first edges, and a center point. The solder mask includes four recess portions exposing an entire top surface and sidewalls of four of the pads in four corners of the regular array, and a plurality of second recess portions exposing a portion of a top surface of other pads in the regular array. A pad size of the four pads in the four corners of the regular array exposed through the first recess portions and a pad size of the other pads exposed through the second recess portions are the same.

A device and method of manufacture is provided that utilize a dummy pad feature adjacent contact pads. The contact pads may be contact pads in an integrated fan-out package in which a molding compound is placed along sidewalls of a die and the contact pads extend over the die and the molding compound. The contact pads are electrically coupled to the die using one or more redistribution layers. The dummy pad features are electrically isolated from the contact pads. In some embodiments, the dummy pad features partially encircle the contact pads and are located in a corner region of the molding compound, a corner region of the die, and/or an interface region between an edge of the die and the molding compound.

A chip package structure is provided. The chip package structure includes a substrate. The chip package structure includes a chip over the substrate. The chip package structure includes a first bump and a first dummy bump between the chip and the substrate. The first bump is electrically connected between the chip and the substrate, the first dummy bump is electrically insulated from the substrate, the first dummy bump is between the first bump and a corner of the chip, and the first dummy bump is wider than the first bump.

A three-dimensional integrated circuit includes a first die structure having a first geometry. The first die structure includes a first region that operates with a first power density and a second region that operates with a second power density. The first power density is less than the second power density. The three-dimensional integrated circuit includes a second die structure having a second geometry. A stacked portion of the second die structure is aligned with the first region. The three-dimensional integrated circuit includes an additional die structure stacked with the first die structure and the second die structure. The additional die structure has the first geometry or the second geometry.

A semiconductor structure includes a first substrate, a first dielectric layer disposed over the first substrate, a plurality of first bonding pads disposed in the first dielectric layer, a plurality of second bonding pads disposed in the first dielectric layer, a second substrate, and a second dielectric layer disposed over the second substrate. The first bonding pads have a first width. The second bonding pads have a second width greater than the first width. The second bonding pads are arranged to form a frame pattern surrounding the first bonding pads. A portion of the second dielectric layer is in physical contact with the second bonding pads. The first bonding pads and the second bonding pads are arranged to form a plurality of columns and a plurality of rows. Two of the second bonding pads are disposed at two opposite ends of each column and two opposite ends of each row.

A method for forming a chip package structure is provided. The method includes bonding a chip to a first surface of a first substrate. The method includes forming a bump and a dummy bump over a second surface of the first substrate. The dummy bump is close to a first corner of the first substrate, and the dummy bump is wider than the bump. The method includes bonding the first substrate to a second substrate through the bump. The dummy bump is electrically insulated from the chip and the second substrate. The method includes forming a protective layer between the first substrate and the second substrate. The protective layer surrounds the dummy bump and the bump, and the protective layer is between the dummy bump and the second substrate.