One or more embodiments are directed to semiconductor packages that include a pillar and bump structures. The semiconductor packages include a die that has recess at a perimeter of the semiconductor die. The semiconductor package includes an encapsulation layer that is located over the semiconductor die filling the recess and surrounding side surfaces of the pillars. The package may be formed on a wafer with a plurality of die and may be singulated into a plurality of packages.

A method of forming a package structure includes disposing a semiconductor device over a first dielectric layer, wherein a first redistribution line is in the first dielectric layer, forming a molding compound over the first dielectric layer and in contact with a sidewall of the semiconductor device, forming a second dielectric layer over the molding compound and the semiconductor device, forming a first opening in the second dielectric layer, the molding compound, and the first dielectric layer to expose the first redistribution line, and forming a first conductor in the first opening, wherein the first conductor is electrically connected to the first redistribution line.

A semiconductor package assembly is provided. The semiconductor package assembly includes a first semiconductor package. The first semiconductor package includes a first semiconductor die. A first redistribution layer (RDL) structure is coupled to the first semiconductor die and includes a first conductive trace. The semiconductor package assembly also includes a second semiconductor package bonded to the first semiconductor package. The second semiconductor package includes a second semiconductor die. An active surface of the second semiconductor die faces an active surface of the first semiconductor die. A second RDL structure is coupled to the second semiconductor die and includes a second conductive trace. The first conductive trace is in direct contact with the second conductive trace.

Reduced-profile semiconductor device apparatus are achieved by thinning a semiconductive device substrate at a backside surface to expose a through-silicon via pillar, forming a recess to further expose the through-silicon via pillar, and by seating an electrical bump in the recess to contact both the through-silicon via pillar and the recess. In an embodiment, the electrical bump contacts a semiconductor package substrate to form a low-profile semiconductor device apparatus. In an embodiment, the electrical bump contacts a subsequent die to form a low-profile semiconductor device apparatus.

Reduced-profile semiconductor device apparatus are achieved by thinning a semiconductive device substrate at a backside surface to expose a through-silicon via pillar, forming a recess to further expose the through-silicon via pillar, and by seating an electrical bump in the recess to contact both the through-silicon via pillar and the recess. In an embodiment, the electrical bump contacts a semiconductor package substrate to form a low-profile semiconductor device apparatus. In an embodiment, the electrical bump contacts a subsequent die to form a low-profile semiconductor device apparatus.

A semiconductor package includes a substrate portion including a core layer having a device accommodating portion formed therein, and a buildup layer stacked on each of opposing sides of the core layer; an electronic device disposed in the device accommodating portion; and heat dissipating conductors disposed in the buildup layer to externally emit heat generated by the electronic device.

An electronic system supports superior coupling by implementing a communication mechanism that provides at least for horizontal communication for example, on the basis of wired and/or wireless communication channels, in the system. Hence, by enhancing vertical and horizontal communication capabilities in the electronic system, a reduced overall size may be achieved, while nevertheless reducing complexity in printed circuit boards coupled to the electronic system. In this manner, overall manufacturing costs and reliability of complex electronic systems may be enhanced.

An electronic system supports superior coupling by implementing a communication mechanism that provides at least for horizontal communication for example, on the basis of wired and/or wireless communication channels, in the system. Hence, by enhancing vertical and horizontal communication capabilities in the electronic system, a reduced overall size may be achieved, while nevertheless reducing complexity in printed circuit boards coupled to the electronic system. In this manner, overall manufacturing costs and reliability of complex electronic systems may be enhanced.

Semiconductor packages and methods for forming a semiconductor package are disclosed. The method includes providing a package substrate having first and second major surfaces. The package substrate includes a base substrate having a mold material and a plurality of interconnect structures including via contacts extending through the first to the second major surface of the package substrate. A die having conductive contacts on its first or second surface is provided. The conductive contacts of the die are electrically coupled to the interconnect structures. A cap is formed over the package substrate to encapsulate the die.

An embodiment of an electronic system may be provided so as to have superior coupling by implementing a communication mechanism that provides at least for horizontal communication for example, on the basis of wired and/or wireless communication channels, in the system. Hence, by enhancing vertical and horizontal communication capabilities in the electronic system, a reduced overall size may be achieved, while nevertheless reducing complexity in PCBs coupled to the electronic system. In this manner, overall manufacturing costs and reliability of complex electronic systems may be enhanced.