Embodiments disclosed herein include package substrates with angled vias and/or via planes. In an embodiment, a package substrate comprises a core with a first surface and a second surface opposite from the first surface. In an embodiment, a first pad is on the first surface, and a second pad on the second surface, where the second pad is outside a footprint of the first pad. In an embodiment, the package substrate further comprises a via through a thickness of the core, where the via connects the first pad to the second pad.

A multiple-damascene structure is located below a semiconductor device footprint on a printed wiring board, where the structure includes multiple recesses that containing useful devices coupled to a semiconductive device.

A system for transmission of quantum information for quantum error correction includes an ancilla qubit chip including a plurality of ancilla qubits, and a data qubit chip spaced apart from the ancilla qubit chip, the data qubit chip including a plurality of data qubits. The system includes an interposer coupled to the ancilla qubit chip and the data qubit chip, the interposer including a dielectric material and a plurality of superconducting structures formed in the dielectric material. The superconducting structures enable transmission of quantum information between the plurality of data qubits on the data qubit chip and the plurality of ancilla qubits on the ancilla qubit chip via virtual photons for quantum error correction.

Disclosed herein are integrated circuit (IC) structures, packages, and devices that include thin-film transistors (TFTs) integrated on the same substrate/die/chip as III-N transistors. One example IC structure includes an III-N transistor in a first layer over a support structure (e.g., a substrate) and a TFT in a second layer over the support structure, where the first layer is between the support structure and the second layer. Another example IC structure includes a III-N semiconductor material and a TFT, where at least a portion of a channel material of the TFT is over at least a portion of the III-N semiconductor material.

A semiconductor package including a semiconductor chip, a redistribution layer structure disposed under the semiconductor chip, a bump pad disposed under the redistribution layer structure and having an upper structure of a first width and a lower structure of a second width less than the first width, a metal seed layer disposed along a lower surface of the upper structure and a side surface of the lower structure, an insulating layer surrounding the redistribution layer structure and the bump pad, and a bump structure disposed under the bump pad. A first undercut is disposed at one end of the metal seed layer that contacts the upper structure, and a second undercut is disposed at an other end of the metal seed layer that contacts the lower structure.

A semiconductor package may include at least one first rewiring structure, the at least one first rewiring structure including a plurality of first insulating layers vertically stacked and a plurality of first rewiring patterns included in the plurality of first insulating layers, at least one semiconductor chip on the at least one first rewiring structure, and at least one molding layer covering the at least one semiconductor chip, wherein each of the plurality of first rewiring patterns includes, a first conductive pattern, the first conductive pattern including a curved upper surface, and a first seed pattern covering a side surface and a lower surface of the first conductive pattern, and each of the first seed patterns of the plurality of first rewiring patterns having a same shape.

A semiconductor device package includes a redistribution layer structure, a lid, a sensing component and an encapsulant. The lid is disposed on the redistribution layer structure and defines a cavity together with the redistribution layer structure. The sensing component is disposed in the cavity. The encapsulant surrounds the lid.

Electrical current flow in a ball grid array (BGA) package can be measured by an apparatus including an integrated circuit (IC) electrically connected to the BGA package. Solder balls connect the BGA package to a printed circuit board (PCB) and are arranged to provide a contiguous channel for a current sense wire. A subset of solder balls is electrically connected to supply current from the PCB through the BGA package to the IC. The current sense wire is attached to the upper surface of the PCB, within the contiguous channel, and surrounds the subset of solder balls. An amplifier is electrically connected to the current sense wire ends to amplify a voltage induced on the current sense wire by current flow into the BGA package. A sensing analog-to-digital converter (ADC) is electrically connected to convert a voltage at the output of the amplifier into digital output signals.

A semiconductor package including a package substrate, a connection substrate on the package substrate and having on a lower corner of the connection substrate a recession that faces a top surface of the package substrate, a semiconductor chip on the connection substrate, a plurality of first connection terminals connecting the connection substrate to the semiconductor chip, and a plurality of second connection terminals connecting the package substrate to the connection substrate. The recession is laterally spaced apart from the second connection terminals.

A semiconductor package includes a bottom chip package having a first side and a second side opposing the first side. The bottom chip package comprises a first semiconductor chip and a second semiconductor chip arranged in a side-by-side manner on the second side. A top antenna package is mounted on the first side of the bottom chip package. The top antenna package comprises a radiative antenna element. A connector is disposed on the second side.