Semiconductor devices and methods of manufacture are provided. In embodiments the semiconductor device includes a substrate, a first interposer bonded to the substrate, a second interposer bonded to the substrate, a bridge component electrically connecting the first interposer to the second interposer, two or more first dies bonded to the first interposer; and two or more second dies bonded to the second interposer.

A semiconductor package includes a package substrate, a first semiconductor chip mounted on the package substrate, a first molding layer on the package substrate and surrounding the first semiconductor chip, a redistribution layer on the first molding layer, a first through via that vertically penetrates the first molding layer and connects the package substrate to the redistribution layer, a second semiconductor chip mounted on the redistribution layer, a second molding layer on the redistribution layer and surrounding the second semiconductor chip, and a second through via that vertically penetrates the second molding layer and is connected to the redistribution layer. A first width of the first through via is less than a second width of the second through via. The second through via is electrically floated from a signal circuit of the second semiconductor chip.

A semiconductor device according to the present embodiment includes a substrate and a semiconductor chip. The substrate has a first face and a plurality of conductive connection parts provided on the first face. The semiconductor chip has a second face that faces the first face and a plurality of connection bumps provided on the second face and electrically connected to the plurality of conductive connection parts. The conductive connection part arranged in a chip outer peripheral region of a chip region on the first face where the semiconductor chip is arranged is different in thickness from the conductive connection part arranged in a chip central region of the chip region.

A package structure includes a core substrate including a substrate base including a plurality of first cavities and a plurality of second cavities, a plurality of blocks in the plurality of second cavities; and a plurality of bridge structures that extend between each of the plurality of blocks and the substrate base, a plurality of semiconductor chips in the plurality of first cavities, and a molding layer configured to cover the core substrate and the plurality of semiconductor chips, a portion of the molding layer being in the plurality of first cavities and the plurality of second cavities.

A semiconductor device having a radiating element and a directing structure is provided. The semiconductor device includes a device package. A semiconductor die is coupled to the radiating element integrated in the device package. The directing structure is affixed to the device package by way of an adhesive. The directing structure is located over the radiating element and configured for propagation of radio frequency (RF) signals.

A method includes forming a package, which includes forming a plurality of redistribution lines over a carrier, and forming a thermal dissipation block over the carrier. The plurality of redistribution lines and the thermal dissipation block are formed by common processes. The thermal dissipation block has a first metal density, and the plurality of redistribution lines have a second metal density smaller than the first metal density. The method further includes forming a metal post over the carrier, placing a device die directly over the thermal dissipation block, and encapsulating the device die and the metal post in an encapsulant. The package is then de-bonded from the carrier.

A method includes forming a first package component, and forming a first plurality of electrical connectors at a first surface of the first package component. The first plurality of electrical connectors are laid out as having a honeycomb pattern. A second package component is bonded to the first package component, wherein a second plurality of electrical connectors at a second surface of the second package component are bonded to the first plurality of electrical connectors.

A method includes bonding a first package component over a second package component, dispensing a first underfill between the first package component and the second package component, and bonding a third package component over the second package component. A second underfill is between the third package component and the second package component. The first underfill and the second underfill are different types of underfills.

A semiconductor device includes an interposer disposed on a substrate. A first major surface of the interposer faces the substrate. A system on a chip is disposed on a second major surface of the interposer. The second major surface of the interposer opposes the first major surface of the interposer. A plurality of first passive devices is disposed in the first major surface of the interposer. A plurality of second passive devices is disposed on the second major surface of the interposer. The second passive devices are different devices than the first passive devices.

A method of forming a package device includes providing a carrier substrate, forming a trench in a front side of the carrier substrate, and bonding a semiconductor die in the trench. The method also includes thinning a back side of the carrier substrate based on a target thickness to obtain a thinned carrier substrate. The method further includes providing a first die group and bonding the thinned carrier substrate to the first die group to form a height-adjusted first die group.