In various embodiments, a bonded structure is disclosed. The bonded structure can include an element and a passive electronic component having a first surface bonded to the element and a second surface opposite the first surface. The passive electronic component can comprise a first anode terminal bonded to a corresponding second anode terminal of the element and a first cathode terminal bonded to a corresponding second cathode terminal of the element. The first anode terminal and the first cathode terminal can be disposed on the first surface of the passive electronic component.

Multi-die structures with die-to-die routing are described. In an embodiment, each die is patterned into the same semiconductor substrate, and the dies may be interconnected with die-to-die routing during back-end wafer processing. Partial metallic seals may be formed to accommodate the die-to-die routing, programmable dicing, and various combinations of full metallic seals and partial metallic seals can be formed. This may also be extended to three dimensional structures formed using wafer-on-wafer or chip-on-wafer techniques.

An apparatus includes a substrate that includes a first integrated inductor. The first integrated inductor includes a first core material disposed within a first cavity of the substrate. The first integrated inductor also includes a first set of conductive windings that at least partially encircle the first core material within the first cavity.

A semiconductor device and a method of forming the same are provided. The semiconductor device includes an integrated circuit die, a dielectric layer, an under-bump metallurgy layer, an interconnection die, and a solder material. The integrated circuit die includes a first die connector. The dielectric layer is located on the integrated circuit die. The under-bump metallurgy layer has a line portion on the dielectric layer and a via portion extending through the dielectric layer to contact the first die connector. The interconnection die includes a second die connector. The solder material is located between the line portion of the under-bump metallurgy layer and the second die connector. The under-bump metallurgy layer includes a first copper layer having a uniform grain orientation, wherein the top surface of the first copper layer is in direct contact with the solder material.