A package structure includes a first redistribution layer, a semiconductor die, and through vias. The first redistribution layer includes dielectric layers, first conductive patterns, and second conductive patterns. The dielectric layers are located in a core region and a peripheral region of the first redistribution layer. The first conductive patterns are embedded in the dielectric layers in the core region, wherein the first conductive patterns are arranged in the core region with a pattern density that gradually increases or decreases from a center of the core region to a boundary of the core region. The second conductive patterns are embedded in the dielectric layers in the peripheral region. The semiconductor die is disposed on the core region over the first conductive patterns. The through vias are disposed on the peripheral region and electrically connected to the second conductive patterns.

A chip package and method for fabricating the same are provided that includes an off-die inductor. The off-die inductor is disposed in a redistribution layer formed on a bottom surface of an integrated circuit (IC) die. The redistribution layer is connected to a package substrate to form the chip package.

A semiconductor package includes a redistribution structure including an insulating layer having an upper surface and a lower surface, a redistribution pad and a redistribution pattern on the lower surface of the insulating layer and electrically connected to each other, and a passivation layer on the lower surface of the insulating layer and having an opening exposing at least a portion of the redistribution pad; a semiconductor chip on the redistribution structure and including a connection pad electrically connected to the redistribution pad; an encapsulant on the redistribution structure and encapsulating the semiconductor chip; and a connection bump and a dummy bump on the passivation layer, wherein the redistribution pattern has a width narrower than a width of the redistribution pad, the connection bump vertically overlaps the redistribution pad, and the dummy bump vertically overlaps the redistribution pattern.

A semiconductor device structure includes a silicon layer disposed over a first semiconductor die, and a first mask layer disposed over the silicon layer. The semiconductor device structure also includes a second semiconductor die disposed over the first mask layer, and a through silicon via penetrating through the silicon layer and the first mask layer. A bottom surface of the through silicon via is greater than a top surface of the through silicon via, and the top surface of the through silicon via is greater than a cross-section of the through silicon via between and parallel to the top surface and the bottom surface of the through silicon via.

An electronic package is provided, where a circuit layer and a metal layer having a plurality of openings are formed on a dielectric layer of a circuit portion to reduce the area ratio of the metal layer to the dielectric layer, so as to reduce stress concentration and prevent warping of the electronic package.

A package includes a first redistribution structure, a second redistribution structure, an inductor, a permalloy core, and a die. The second redistribution structure is over the first redistribution structure. The inductor includes a first portion, a second portion, and a third portion. The first portion is embedded in the first redistribution structure, the third portion is embedded in the second redistribution structure, and the second portion connects the first and third portions of the inductor. The permalloy core is located between the first and third portions of the inductor. The die is disposed adjacent to the second portion of the inductor.

A first circuit formed on a first semiconductor substrate is wafer-bonded to a second circuit formed on a second memory circuit, wherein the first circuit includes quasi-volatile or non-volatile memory circuits and wherein the second memory circuit includes fast memory circuits that have lower read latencies than the quasi-volatile or non-volatile memory circuits, as well as logic circuits. The volatile and non-volatile memory circuits may include static random-access memory (SRAM) circuits, dynamic random-access memory (DRAM) circuits, embedded DRAM (eDRAM) circuits, magnetic random-access memory (MRAM) circuits, embedded MRAM (eMRAM), or any suitable combination of these circuits.

An embodiment is a method including forming a first interconnect structure over a first substrate, forming a redistribution via over the first interconnect structure, the redistribution via being electrically coupled to at least one of the metallization patterns of the first interconnect structure, forming a redistribution pad over the redistribution via, the redistribution pad being electrically coupled to the redistribution via, forming a first dielectric layer over the redistribution pad, and forming a second dielectric layer over the first dielectric layer. The method also includes patterning the first and second dielectric layers, forming a bond via over the redistribution pad and in the first dielectric layer, the bonding via being electrically coupled to the redistribution pad, the bond via overlapping the redistribution via, and forming a first bond pad over the bonding via and in the second dielectric layer, the first bond pad being electrically coupled to the bond via.

A package includes a first semiconductor substrate; an integrated circuit die bonded to the first semiconductor substrate with a dielectric-to-dielectric bond; a molding compound over the first semiconductor substrate and around the integrated circuit die; and a redistribution structure over the first semiconductor substrate and the integrated circuit die, wherein the redistribution structure is electrically connected to the integrated circuit die. The integrated circuit die includes a second semiconductor substrate, and wherein the second semiconductor substrate comprises a first sidewall, a second sidewall, and a third sidewall opposite the first sidewall and the second sidewall, and the second sidewall is offset from the first sidewall.

In an embodiment, a device includes: a molding compound; an integrated circuit die encapsulated in the molding compound; a through via adjacent the integrated circuit die; and a redistribution structure over the integrated circuit die, the molding compound, and the through via, the redistribution structure electrically connected to the integrated circuit die and the through via, the redistribution structure including: a first dielectric layer disposed over the molding compound; a first conductive via extending through the first dielectric layer; a second dielectric layer disposed over the first dielectric layer and the first conductive via; and a second conductive via extending through the second dielectric layer and into a portion of the first conductive via, an interface between the first conductive via and the second conductive via being non-planar.