A semiconductor includes a lower structure, an upper structure on the lower structure, and a connection pattern between the lower structure and the upper structure. The connection pattern is configured to electrically connect the lower structure and the upper structure to each other. The lower structure includes a lower base and a first lower chip on the lower base. The first lower chip includes a chip bonding pad, a pad structure, and a heat sink structure. The connection pattern is connected to the upper structure and extends away from the upper structure to be connected to the pad structure. The pad structure has a thickness greater than a thickness of the chip bonding pad. At least a portion of the heat sink structure is at a same height level as at least a portion of the pad structure.

A semiconductor device package includes a first circuit layer, a second circuit layer, a first semiconductor die and a second semiconductor die. The first circuit layer includes a first surface and a second surface opposite to the first surface. The second circuit layer is disposed on the first surface of the first circuit layer. The first semiconductor die is disposed on the first circuit layer and the second circuit layer, and electrically connected to the first circuit layer and the second circuit layer. The second semiconductor die is disposed on the second circuit layer, and electrically connected to the second circuit layer.

A die stack includes: a first die including a first semiconductor substrate; a first redistribution layer (RDL) structure disposed on a front surface of the first die and electrically connected to the first semiconductor substrate; a second die bonded to the front surface of the first die and including a second semiconductor substrate; a third die bonded to the front surface of the first die and including a third semiconductor substrate; a second RDL structure disposed on front surfaces of the second and third dies and electrically connected to the second and third semiconductor substrates; and a through dielectric via (TDV) structure extending between the second and third dies and electrically connected to the first RDL structure and second RDL structure. The second and third dies are disposed in a plane that extends perpendicular to a vertical stacking direction of the die stack.

A semiconductor device and a method for manufacturing the same are provided. The semiconductor device includes a semiconductor substrate, a conductive structure and at least one via structure. The conductive structure is disposed on an upper surface of the semiconductor substrate. The at least one via structure is disposed in the semiconductor substrate. A portion of the at least one via structure extends beyond the conductive structure.

A semiconductor device includes a protective layer, a redistribution pattern, a pad pattern and an insulating polymer layer. The protective layer may be formed on a substrate. The redistribution pattern may be formed on the protective layer. An upper surface of the redistribution may be substantially flat. The pad pattern may be formed directly on the redistribution pattern. An upper surface of the pad pattern may be substantially flat. The insulating polymer layer may be formed on the redistribution pattern and the pad pattern. An upper surface of the insulating polymer layer may be lower than the upper surface of the pad pattern.

Semiconductor die assemblies having interconnect structures with redundant electrical connectors are disclosed herein. In one embodiment, a semiconductor die assembly includes a first semiconductor die, a second semiconductor die, and an interconnect structure between the first and the second semiconductor dies. The interconnect structure includes a first conductive film coupled to the first semiconductor die and a second conductive film coupled to the second semiconductor die. The interconnect structure further includes a plurality of redundant electrical connectors extending between the first and second conductive films and electrically coupled to one another via the first conductive film.

An embodiment device includes: a first dielectric layer; a first photonic die and a second photonic die disposed adjacent a first side of the first dielectric layer; a waveguide optically coupling the first photonic die to the second photonic die, the waveguide being disposed between the first dielectric layer and the first photonic die, and between the first dielectric layer and the second photonic die; a first integrated circuit die and a second integrated circuit die disposed adjacent the first side of the first dielectric layer; conductive features extending through the first dielectric layer and along a second side of the first dielectric layer, the conductive features electrically coupling the first photonic die to the first integrated circuit die, the conductive features electrically coupling the second photonic die to the second integrated circuit die; and a second dielectric layer disposed adjacent the second side of the first dielectric layer.

A via for semiconductor devices is disclosed. Implementations of vias for semiconductor devices may include: a semiconductor substrate that includes a first side; a via extending from the first side of the semiconductor substrate to a pad; a polymer layer coupled along an entire sidewall of the via, the polymer layer in direct contact with the pad; and a metal layer directly coupled over the polymer layer and directly coupled with the pad.

A package that includes a substrate, an integrated device, a first encapsulation layer and a void. The substrate includes a first surface. The integrated device is coupled to the first surface of the substrate. The first encapsulation layer is located over the first surface of the substrate and the integrated device. The first encapsulation layer includes an undercut relative to a side surface of the integrated device. The void is located between the integrated device and the first surface of the substrate. The void is laterally surrounded by the undercut of the encapsulation layer.

A semiconductor device includes a semiconductor substrate including a chip region and an edge region around the chip region, a lower insulating layer on the semiconductor substrate, a chip pad on the lower insulating layer on the chip region, an upper insulating layer provided on the lower insulating layer to cover the chip pad, the upper and different insulating layers including different materials, and a redistribution chip pad on the chip region and connected to the chip pad. The upper insulating layer includes a first portion on the chip region having a first thickness, a second portion on the edge region having a second thickness, and a third portion on the edge region, the third portion extending from the second portion, spaced from the first portion, and having a decreasing thickness away from the second portion. The second thickness is smaller than the first thickness.