A semiconductor package includes: an encapsulation layer sealing at least one semiconductor chip; a redistribution level layer arranged on the encapsulation layer; a laser mark metal layer arranged on the redistribution level layer; and a laser mark arranged inside the laser mark metal layer. The laser mark includes letters, numbers, figures, symbols, and recognition codes indicating various pieces of information of the semiconductor package.

A die for a semiconductor chip package includes a first surface including an integrated circuit formed therein. The die also includes a backside surface opposite the first surface. The backside surface has a total surface area defining a substantially planar region of the backside surface. The die further includes at least one device formed on the backside surface. The at least one device includes at least one extension extending from the at least one device beyond the total surface area.

An optoelectronic component includes at least one optoelectronic semiconductor chip and an electronic first storage medium. The first storage medium electrically stores first component information. The component can be uniquely identified via the first component information. The optoelectronic component also includes a second storage medium which can be read out wirelessly at least in an unmounted state of the component. The second storage medium stores second component information that is representative of the first component information.

A semiconductor package includes an encapsulation layer encapsulating at least one semiconductor chip, and a redistribution level layer disposed on the encapsulation layer. The redistribution level layer includes a redistribution layer and a redistribution insulating layer insulating the redistribution layer, a laser mark area is disposed on the redistribution layer and the redistribution insulating layer, and the redistribution insulating layer of the laser mark area comprises a plurality of mesh-type redistribution insulating patterns arranged apart from each other on a plane and surrounded by the redistribution layer. The redistribution level layer includes a laser mark insulating layer located on the redistribution layer and the redistribution insulating layer, wherein the laser mark insulating layer includes a laser mark exposing the redistribution layer and the mesh-type redistribution insulating patterns in the laser mark area.

An integrated circuit (IC) includes a first circuit layer that includes a first wireless power transfer (WPT) device, a first chip electrically connected to the first circuit layer, and a first tracking circuit disposed in the first chip. The first WPT device may be configured to extract energy from an electromagnetic signal and provide an output voltage. The first tracking circuit may be powered by the output voltage of the first WPT device and may output tracking data in response to an instruction extracted from the electromagnetic signal.

A technique relates to a superconducting chip. Resonant units have resonant frequencies, and the resonant units are configured as superconducting resonators. Josephson junctions are in the resonant units, and one or more of the Josephson junctions have a shorted tunnel barrier.

An integrated circuit (IC) includes a first circuit layer that includes a first wireless power transfer (WPT) device, a first chip electrically connected to the first circuit layer, and a first tracking circuit disposed in the first chip. The first WPT device may be configured to extract energy from an electromagnetic signal and provide an output voltage. The first tracking circuit may be powered by the output voltage of the first WPT device and may output tracking data in response to an instruction extracted from the electromagnetic signal.

A technique relates to a superconducting chip. Resonant units have resonant frequencies, and the resonant units are configured as superconducting resonators. Josephson junctions are in the resonant units, and one or more of the Josephson junctions have a shorted tunnel barrier.

An integrated circuit (IC) includes a first circuit layer that includes a first wireless power transfer (WPT) device, a first chip electrically connected to the first circuit layer, and a first tracking circuit disposed in the first chip. The first WPT device may be configured to extract energy from an electromagnetic signal and provide an output voltage. The first tracking circuit may be powered by the output voltage of the first WPT device and may output tracking data in response to an instruction extracted from the electromagnetic signal.

Techniques are presented for ensuring alignment marks are available for use and patterning magnetoresistive devices following the deposition of layers used to form the magnetoresistive devices. In some cases, the plurality of layers corresponding to the magnetoresistive devices are selectively etched in order to expose the underlying alignment marks, whereas in other embodiments, the deposition of the plurality of layers is controlled by deposition tool tabs that prevent the materials from obscuring the underlying alignment marks.