Embodiments disclosed herein include electronic packages and methods of forming such electronic packages. In an embodiment, the electronic package comprises a mold layer having a first surface and a second surface opposite the first surface, and a plurality of first dies embedded in the mold layer. In an embodiment, each of the plurality of first dies has a surface that is substantially coplanar with the first surface of the mold layer. In an embodiment, the electronic package further comprises a second die embedded in the mold layer. In an embodiment, the second die is positioned between the plurality of first dies and the second surface of the mold layer.

Techniques are provided for fine node heterogeneous-chip packages. In an example, a method of making a heterogeneous-chip package can include coupling electrical terminals of a first side of a first base die to electrical terminals of a first side of a second base die using a silicon bridge, forming an organic substrate about the silicon bridge and adjacent the first sides of the first and second base dies, and coupling a fine node die to a second side of at least one of the first base die or the second base die.

Provided are a package and a method of manufacturing the same. The package includes a first die, a second die, a bridge structure, an encapsulant, and a redistribution layer (RDL) structure. The first die and the second die are disposed side by side. The bridge structure is disposed over the first die and the second die to electrically connect the first die and the second die. The encapsulant laterally encapsulates the first die, the second die, and the bridge structure. The RDL structure is disposed over a backside of the bridge structure and the encapsulant. The RDL structure includes an insulating structure and a conductive pattern, the conductive pattern is disposed over the insulating structure and extending through the insulating structure and a substrate of the bridge structure, so as to form at least one through via in the substrate of the bridge structure.

A package structure and method of forming the same are provided. The package structure includes a die, a first dielectric layer, a second dielectric layer and a conductive terminal. The first dielectric layer covers a bottom surface of the die and includes a first edge portion and a first center portion in contact with the bottom surface of the die. The first edge portion is thicker than the first center portion. The second dielectric layer is disposed on the first dielectric layer and laterally surrounding the die. The second dielectric layer includes a second edge portion on the first edge portion and a second center portion in contact with a sidewall of the die. The second edge portion is thinner than the second center portion. The conductive terminal is disposed over the die and the second dielectric layer and electrically connected to the die.

An electronic package is provided, which is disposed with a second electronic component and a third electronic component on a first electronic component as a carrier structure, such that there is no need to match a layout size of the conventional package substrate. Therefore, the first electronic component can be designed as a System on a Chip (SoC) with a smaller size to improve the process yield.

Semiconductor device package assemblies and associated methods are disclosed herein. In some embodiments, the semiconductor device package assembly includes (1) a base component having a front side and a back side opposite the first side, the base component having a first metallization structure at the front side, the first metallization structure being exposed in a contacting area at the front side; (2) a semiconductor device package having a first side and a second side, the semiconductor device package having a second metallization structure at the first side; and (3) a metal bump at least partially positioned in the recess and electrically coupled to the second metallization structure and the first metallization structure.

A semiconductor package structure includes at least one first semiconductor die, at least one second semiconductor die and an encapsulant. The first semiconductor die has a first surface and includes a plurality of first pillar structures disposed adjacent to the first surface. The second semiconductor die is electrically connected to the first semiconductor die. The encapsulant covers the first semiconductor die and the second semiconductor die. A lower surface of the encapsulant is substantially coplanar with an end surface of each of the first pillar structures and a surface of the second semiconductor die.

A semiconductor package includes a first semiconductor die, a molded die, a third encapsulant, and a redistribution structure. The molded die includes a chip, a first encapsulant, and a second encapsulant. The first encapsulant laterally wraps the chip. The second encapsulant laterally wraps the first encapsulant. The third encapsulant laterally wraps the first semiconductor die and the molded die. The redistribution structure extends on the second encapsulant, the third encapsulant, and the first semiconductor die. The redistribution structure is electrically connected to the first semiconductor die and the molded die. The second encapsulant separates the first encapsulant from the third encapsulant.

A package structure and method of forming the same are provided. The package structure includes a first die and a second die disposed side by side, a first encapsulant laterally encapsulating the first and second dies, a bridge die disposed over and connected to the first and second dies, a second encapsulant and a first RDL structure. The bridge die includes a semiconductor substrate, a conductive via and an encapsulant layer. The semiconductor substrate has a through substrate via embedded therein. The conductive via is disposed over a back side of the semiconductor substrate and electrically connected to the through substrate via. The encapsulant layer is disposed over the back side of the semiconductor substrate and laterally encapsulates the conductive via. The second encapsulant is disposed over the first encapsulant and laterally encapsulates the bridge die. The first RDL structure is disposed on the bridge die and the second encapsulant.

A semiconductor packaging method, a semiconductor assembly and an electronic device are disclosed herein. The semiconductor packaging method comprises providing at least one semiconductor device, a carrier board, and a clamping board. The at least one semiconductor device has a passive surface with first alignment solder parts formed thereon, and the carrier board has a plurality of corresponding second alignment solder parts formed thereon. The method further comprises forming alignment solder joints by aligning and soldering the first alignment solder parts to respective ones of the second alignment solder parts; and injecting a molding compound through one or more openings in one or both of the carrier board and the clamping board to form a molded package body encapsulating the at least one semiconductor device between the carrier board and the clamping board attached to the active surface of the at least one semiconductor device.