A method includes forming a first photonic package, wherein forming the first photonic package includes patterning a silicon layer to form a first waveguide, wherein the silicon layer is on an oxide layer, and wherein the oxide layer is on a substrate; forming vias extending into the substrate; forming a first redistribution structure over the first waveguide and the vias, wherein the first redistribution structure is electrically connected to the vias; connecting a first semiconductor device to the first redistribution structure; removing a first portion of the substrate to form a first recess, wherein the first recess exposes the oxide layer; and filling the first recess with a first dielectric material to form a first dielectric region.

A semiconductor package includes a package substrate, an interposer provided on the package substrate, a plurality of semiconductor devices on the interposer and spaced apart from each other, and electrically connected to each other through the interposer, at least one dummy member on the interposer to cover at least one corner portion of the interposer and arranged spaced apart from a first semiconductor device among the plurality of semiconductor devices, and a sealing member contacting the interposer and filling a space between the first semiconductor device and the at least one dummy member so as to cover a first side surface of the first semiconductor device, a first side surface of the at least one dummy member, and an upper surface of the dummy member. A second side surface, opposite to the first side surface, of the at least one dummy member is uncovered by the sealing member.

A semiconductor package includes a substrate, at least one semiconductor chip arranged in the substrate and having chip pads, and a redistribution wiring layer covering a lower surface of the substrate and including first and second redistribution wirings and dummy patterns, the first and second redistribution wirings being stacked in at least two levels and connected to the chip pads. The first and second redistribution wirings are arranged in a redistribution region of the redistribution wiring layer, and the dummy patterns extend in an outer region outside the redistribution region to partially cover corner portions of the redistribution wiring layer, respectively.

A semiconductor structure and a manufacturing method thereof are provided. The semiconductor structure includes a redistribution structure, conductive joints, conductive terminals, a circuit substrate, and an insulating encapsulation. The redistribution structure includes a first side and a second side opposite to the first side, wherein trenches are located on the second side of the redistribution structure and extend to an edge of the second side of the redistribution structure. The conductive joints are disposed over the first side of the redistribution structure. The conductive terminals are disposed over the second side of the redistribution structure. The circuit substrate electrically coupled to the redistribution structure through the conductive joints. The insulating encapsulation is disposed on the first side of the redistribution structure to cover the circuit substrate.

Semiconductor packages may include a molded interposer and semiconductor dice mounted on the molded interposer. The molded interposer may include two redistribution layer structures on opposite sides of a molding compound. Electrically conductive vias may connect the RDL structures through the molding compound, and passive devices may be embedded in the molding compound and electrically connected to one of the RDL structures. Each of the semiconductor dice may be electrically connected to, and have a footprint covering, a corresponding one of the passive devices to form a face-to-face connection between each of the semiconductor dice and the corresponding one of the passive devices.

A semiconductor package includes an insulating layer including a first face and a second face opposite each other, a redistribution pattern including a wiring region and a via region in the insulating layer, the wiring region being on the via region, and a first semiconductor chip connected to the redistribution pattern. The first semiconductor chip may be on the redistribution pattern. An upper face of the wiring region may be coplanar with the first face of the insulating layer.

A fabricating method of a semiconductor device is provided. A temporary semiconductor structure is provided. The temporary semiconductor structure includes a temporary substrate and a conductive layer, the temporary substrate has a first surface, the conductive layer is disposed on the first surface of the temporary substrate, and the conductive layer includes one or more first trace. Then, a recess is formed in the temporary semiconductor structure to form a first semiconductor structure and a first substrate. The recess penetrates through the first substrate and expose the one or more first trace. Thereafter, an input/output pad is formed in the recess and on the one or more first trace.

Provided is a semiconductor package including an interposer. The semiconductor package includes: a package base substrate; a lower redistribution line structure disposed on the package base substrate and including a plurality of lower redistribution line patterns; at least one interposer including a plurality of first connection pillars spaced apart from each other on the lower redistribution line structure and connected respectively to portions of the plurality of lower redistribution line patterns, and a plurality of connection wiring patterns; an upper redistribution line structure including a plurality of upper redistribution line patterns connected respectively to the plurality of first connection pillars and the plurality of connection wiring patterns, on the plurality of first connection pillars and the at least one interposer; and at least two semiconductor chips adhered on the upper redistribution line structure while being spaced apart from each other.

An electronic package including a middle patterned conductive layer, a first redistribution circuitry disposed on a first surface of the middle patterned conductive layer and a second redistribution circuitry disposed on a second surface of the middle patterned conductive layer is provided. The middle patterned conductive layer has a plurality of middle conductive pads. The first redistribution circuitry includes a first patterned conductive layer having a plurality of first conductive elements. Each of the first conductive elements has a first conductive pad and a first conductive via that form a T-shaped section. The second redistribution circuitry includes a second patterned conductive layer having a plurality of second conductive elements. Each of the second conductive elements has a second conductive pad and a second conductive via that form an inversed T-shaped section.

Photonic devices and methods of manufacture are provided. In embodiments a fill material and/or a secondary waveguide are utilized in order to protect other internal structures such as grating couplers from the rigors of subsequent processing steps. Through the use of these structures at the appropriate times during the manufacturing process, damage and debris that would otherwise interfere with the manufacturing process of the device or operation of the device can be avoided.