Embodiments include semiconductor packages and methods to form the semiconductor packages. A semiconductor package includes a plurality of first dies on a substrate, an interface layer over the first dies, a backside metallization (BSM) layer directly on the interface layer, where the BSM layer includes first, second, and third conductive layer, and a heat spreader over the BSM layer. The first conductive layer includes a titanium material. The second conductive layer includes a nickel-vanadium material. The third conductive layer includes a gold material, a silver material, or a copper material. The copper material may include copper bumps. The semiconductor package may include a plurality of second dies on a package substrate. The substrate may be on the package substrate. The second dies may have top surfaces substantially coplanar to top surface of the first dies. The BSM and interface layers may be respectively over the first and second dies.

Embodiments include semiconductor packages and methods to form the semiconductor packages. A semiconductor package includes a plurality of first dies on a substrate, an interface layer over the first dies, a backside metallization (BSM) layer directly on the interface layer, where the BSM layer includes first, second, and third conductive layer, and a heat spreader over the BSM layer. The first conductive layer includes a titanium material. The second conductive layer includes a nickel-vanadium material. The third conductive layer includes a gold material, a silver material, or a copper material. The copper material may include copper bumps. The semiconductor package may include a plurality of second dies on a package substrate. The substrate may be on the package substrate. The second dies may have top surfaces substantially coplanar to top surface of the first dies. The BSM and interface layers may be respectively over the first and second dies.

A semiconductor package structure and a method for manufacturing a semiconductor package structure are provided. The semiconductor package structure includes a substrate and a first passive device. The substrate has a first surface and a second surface opposite to the first surface. The first passive device includes a first terminal and a second terminal, wherein the first terminal is closer to the first surface than to the second surface, and the second terminal is closer to the second surface than to the first surface.

A semiconductor package structure and a method for manufacturing a semiconductor package structure are provided. The semiconductor package structure includes a substrate and a first passive device. The substrate has a first surface and a second surface opposite to the first surface. The first passive device includes a first terminal and a second terminal, wherein the first terminal is closer to the first surface than to the second surface, and the second terminal is closer to the second surface than to the first surface.

Methods of manufacturing a semiconductor package structure are provided. A method includes: bonding dies and dummy dies to a wafer; forming a dielectric material layer on the wafer to cover the dies and the dummy dies; performing a first planarization process to remove a first portion of the dielectric material layer over top surfaces of the dies and the dummy dies; and performing a second planarization process to remove portions of the dies, portions of the dummy dies and a second portion of the dielectric material layer, and a dielectric layer is formed laterally aside the dies and the dummy dies; wherein after the second planarization process is performed, a total thickness variation of the dies is less than a total thickness variation of the dummy dies.

Methods of manufacturing a semiconductor package structure are provided. A method includes: bonding dies and dummy dies to a wafer; forming a dielectric material layer on the wafer to cover the dies and the dummy dies; performing a first planarization process to remove a first portion of the dielectric material layer over top surfaces of the dies and the dummy dies; and performing a second planarization process to remove portions of the dies, portions of the dummy dies and a second portion of the dielectric material layer, and a dielectric layer is formed laterally aside the dies and the dummy dies; wherein after the second planarization process is performed, a total thickness variation of the dies is less than a total thickness variation of the dummy dies.

A method of forming a semiconductor device includes applying an adhesive material in a first region of an upper surface of a substrate, where applying the adhesive material includes: applying a first adhesive material at first locations of the first region; and applying a second adhesive material at second locations of the first region, the second adhesive material having a different material composition from the first adhesive material. The method further includes attaching a ring to the upper surface of the substrate using the adhesive material applied on the upper surface of the substrate, where the adhesive material is between the ring and the substrate after the ring is attached.

A method of forming a semiconductor device includes applying an adhesive material in a first region of an upper surface of a substrate, where applying the adhesive material includes: applying a first adhesive material at first locations of the first region; and applying a second adhesive material at second locations of the first region, the second adhesive material having a different material composition from the first adhesive material. The method further includes attaching a ring to the upper surface of the substrate using the adhesive material applied on the upper surface of the substrate, where the adhesive material is between the ring and the substrate after the ring is attached.

The present application provides a semiconductor package and a manufacturing method thereof. The semiconductor package includes a package substrate, a bottom device die, an interposing package substrate and a top device die. The bottom device die is bonded to the package substrate. The interposing package substrate is located over the bottom device die and bonded to the package substrate. The top device die is bonded to the interposing package substrate form above the interposing package substrate.

The present application provides a semiconductor package and a manufacturing method thereof. The semiconductor package includes a package substrate, a bottom device die, an interposing package substrate and a top device die. The bottom device die is bonded to the package substrate. The interposing package substrate is located over the bottom device die and bonded to the package substrate. The top device die is bonded to the interposing package substrate form above the interposing package substrate.