A semiconductor package comprises a first die having a central region and a peripheral region that surrounds the central region; a plurality of through electrodes that penetrate the first die; a plurality of first pads at a top surface of the first die and coupled to the through electrodes; a second die on the first die; a plurality of second pads at a bottom surface of the second die, the bottom surface of the second die facing the top surface of the first die; a plurality of connection terminals that connect the first pads to the second pads; and a dielectric layer that fills a space between the first die and the second die and surrounds the connection terminals. A first width of each of the first pads in the central region may be greater than a second width of each of the first pads in the peripheral region. Each of the connection terminals may include a convex portion at a lateral surface thereof, which protrudes beyond a lateral surface of a respective first pad and a lateral surface of a respective second pad. The convex portion may protrude in a direction away from a center of the first die. Protruding distances of the convex portions may increase in a direction from the center of the first die toward an outside of the first die.

A quantum processor includes: a first chip comprising a qubit array, in which a plurality of qubits within the qubit array define an enclosed region on the first chip, in which each qubit of the plurality of qubits that define the enclosed region is arranged to directly electromagnetically couple to an adjacent qubit of the plurality of qubits that define the enclosed region, and in which each qubit of the qubit array comprises at least two superconductor islands, and a second chip bonded to the first chip, the second chip including one or more qubit control elements, in which the qubit control elements are positioned directly over the enclosed region of the first chip.

Apparatuses relating to a microelectronic package are disclosed. In one such apparatus, a substrate has first contacts on an upper surface thereof. A microelectronic die has a lower surface facing the upper surface of the substrate and having second contacts on an upper surface of the microelectronic die. Wire bonds have bases joined to the first contacts and have edge surfaces between the bases and corresponding end surfaces. A first portion of the wire bonds are interconnected between a first portion of the first contacts and the second contacts. The end surfaces of a second portion of the wire bonds are above the upper surface of the microelectronic die. A dielectric layer is above the upper surface of the substrate and between the wire bonds. The second portion of the wire bonds have uppermost portions thereof bent over to be parallel with an upper surface of the dielectric layer.

A semiconductor package includes a die, a redistribution structure and a plurality of conductive terminals. The redistribution structure is disposed below and electrically connected to the die. The redistribution structure includes a plurality of conductive patterns, and at least one of the plurality of conductive patterns has a cross-section substantially parallel to the surface of the die. The cross-section has a long-axis and a short-axis, and the long-axis intersects with a center axis of the die. The conductive terminals are disposed below and electrically connected to the redistribution structure.

A semiconductor package including a package redistribution layer, a cover insulating layer on the package redistribution layer; a lower semiconductor chip arranged between the package redistribution layer and the cover insulating layer and electrically connected to the package redistribution layer, a lower molding layer surrounding the lower semiconductor chip and filling between the package redistribution layer and the cover insulating layer, a plurality of connection posts electrically connected to the package redistribution layer by passing through the cover insulating layer and the lower molding layer, an upper semiconductor chip arranged above the cover insulating layer electrically connected to the plurality of connection posts, and an upper molding layer filling between the upper semiconductor chip and the cover insulating layer and surrounding the upper semiconductor chip may be provided.

A package includes a corner, a device die, a plurality of redistribution lines underlying the device die, and a plurality of non-solder electrical connectors underlying and electrically coupled to the plurality of redistribution lines. The plurality of non-solder electrical connectors includes a corner electrical connector. The corner electrical connector is elongated. An electrical connector is farther away from the corner than the corner electrical connector, wherein the electrical connector is non-elongated.

A embodiment package includes a three dimensional integrated circuit (3D IC) with first input/output pads on a first side and second input/output pads on a second side, a first fan out structure electrically coupled to the first input/output pads on the first side of the three dimensional integrated circuit, and a second fan out structure electrically coupled to the second input/output pads on the second side of the three dimensional integrated circuit.

A micro-component comprises a component substrate having a first side and an opposing second side. Fenders project from the first and second sides of the component substrate and include first-side fenders extending from the first side and a second-side fender extending from the second side of the component substrate. At least two of the first-side fenders have a non-conductive surface and are disposed closer to a corner of the component substrate than to a center of the component substrate.

An IC package, an electronic assembly, and methods of preventing warpage of components of an electronic assembly during fabrication of the electronic assembly are shown. An IC package including an adhesive disposed at or near at least one of four corners of a die of the IC package is shown. An electronic assembly including an IC package that includes an adhesive disposed at or near at least one of four corners of a second surface of a first substrate is shown. Methods of preventing warpage of components of an electronic assembly during fabrication of the electronic assembly that include applying an adhesive to at least one of four corners of a first surface of a first component are shown.

According to an aspect, a display device includes: a substrate including a display region and a non-display region surrounding the display region; at least one driver IC including connecting terminals with a first surface fixed to face the non-display region; first wires supplying a signal to the display region; first bumps connected with the first wires; second wires transferring a signal to and from outside; second bumps connected with the second wires; and inspection wires. The connecting terminals of the driver IC include first connecting terminals overlapping the first or second bumps in plan view, and a second connecting terminal not overlapping the first or second bumps in plan view. At least one inspection wire includes a connecting conductor between itself and the second connecting terminal, and at least one fuse portion, a narrower width part of the inspection wire in plan view.