A multi-layer semiconductor structure includes a first semiconductor structure and a second semiconductor structure, with at least one of the first and second semiconductor structures provided as a superconducting semiconductor structure. The multi-layer semiconductor structure also includes one or more interconnect structures. Each of the interconnect structures is disposed between the first and second semiconductor structures and coupled to respective ones of interconnect pads provided on the first and second semiconductor structures. Additionally, each of the interconnect structures includes a plurality of interconnect sections. At least one of the interconnect sections includes at least one superconducting and/or a partially superconducting material.

A method of manufacturing a semiconductor device is provided. The method includes attaching a first end of a first bond wire to a first conductive lead and a second end of the first bond wire to a first bond pad of a first semiconductor die. A conductive lead extender is affixed to the first conductive lead by way of a conductive adhesive, the lead extender overlapping the first end of the first bond wire. A first end of a second bond wire is attached to the lead extender, the first end of the second bond wire conductively connected to the first end of the first bond wire.

A semiconductor package including a first semiconductor chip; second semiconductor chips sequentially stacked on the first semiconductor chip; a front connection pad on a lower surface of each of the second semiconductor chips; a rear connection pad attached to an upper surface of each of the first semiconductor chip and the second semiconductor chips; a chip connection terminal between the front connection pad and the rear connection pad; and a support structure between the first semiconductor chip and one of the second semiconductor chips and between adjacent ones of the second semiconductor chips, the support structure being spaced apart from the front connection pad, the rear connection pad, and the chip connection terminal, having a vertical height greater than a vertical height of the chip connection terminal, and including a metal.

A semiconductor device includes: a substrate on which wiring is formed; a first semiconductor element flip-chip bonded to the substrate; a second semiconductor element provided on the first semiconductor element; a first resin provided in at least part of a region between the first semiconductor element and the substrate; a second resin provided in at least part of a region between the second semiconductor element and the substrate; and a member having a thermal conductivity higher than a thermal conductivity of the first resin and a thermal conductivity of the second resin, provided between the first resin and the second resin, having a part overlapping with an upper surface of the first semiconductor element, and having another part overlapping with a first wiring part as part of the wiring in a top view.

A semiconductor device includes a first semiconductor chip, an adhesive layer that is formed on the first semiconductor chip, and a second semiconductor chip that is arranged on the first semiconductor chip via the adhesive layer. The first semiconductor chip has a first semiconductor substrate and a first wiring layer. The first wiring layer has a first inductor and a first electrode pad. The first wiring layer is formed on the first semiconductor substrate. The second semiconductor chip has a second wiring layer and a second semiconductor substrate. The second wiring layer is formed on the first wiring layer via the adhesive layer. The second semiconductor substrate is formed on the second wiring layer, and has a first opening. In a plan view, the first electrode pad is formed so as not to overlap with the second semiconductor chip, and a second electrode pad overlaps with the first opening.

Apparatus and methods are provided for integrated circuit packages having a low z-height. In an example, a method can include mounting a first integrated circuit sub-package to a first package substrate wherein the sub-package substrate spans an opening of the first package substrate, mounting a second integrated circuit package to a second package substrate, and mounting the first package substrate with the second package substrate wherein the mounting includes locating a portion of the second integrated circuit package within the opening of the first package substrate.

An integrated circuit (IC) package includes a first die with a first surface overlaying a substrate. The first die includes a first metal pad at a second surface opposing the first surface. The IC package also includes a dielectric layer having a first surface contacting the second surface of the first die. The IC package further includes a second die with a surface that contacts a second surface of the dielectric layer. The second die includes a second metal pad aligned with the first metal pad of the first die. A plane perpendicular to the second surface of the first die intersects the first metal pad and the second metal pad.

A package includes an integrated circuit. The integrated circuit includes a first chip, a second chip, a third chip, and a fourth chip. The second chip and the third chip are disposed side by side on the first chip. The second chip and the third chip are hybrid bonded to the first chip. The fourth chip is fusion bonded to at least one of the second chip and the third chip.

A semiconductor memory device according to an embodiment includes a substrate, a first memory cell, a first bit line, a first word line, a first transistor, and a second transistor. The first memory cell is provided above the substrate. The first bit line extends in a first direction. The first bit line is coupled to the first memory cell. The first word line extends in a second direction intersecting the first direction. The first word line is coupled to the first memory cell. The first transistor is provided on the substrate. The first transistor is coupled to the first bit line. The second transistor is provided below the first memory cell and on the substrate. The second transistor is coupled to the first word line.

A semiconductor device includes an insulating layer on a substrate; a via extending from within the substrate and extending through one face of the substrate and a bottom face of a trench defined in the insulating layer such that a portion of a sidewall and a top face of the via are exposed through the substrate; and a pad contacting the exposed portion of the sidewall and the top face of the via. The pad fills the trench. The insulating layer includes a passivation layer on the substrate, and a protective layer is on the passivation layer. An etch stop layer is absent between the passivation layer and the protective layer. A vertical level of a bottom face of the trench is higher than a vertical level of one face of the substrate and is lower than a vertical level of a top face of the passivation layer.