A semiconductor package includes an upper substrate having a first surface and a second surface which are opposite to each other, a lower semiconductor chip disposed on the first surface of the upper substrate, a plurality of conductive pillars disposed on the first surface of the upper substrate at at least one side of the lower semiconductor chip, and an upper semiconductor chip disposed on the second surface of the upper substrate. The lower semiconductor chip and the plurality of conductive pillars are connected to the first surface of the upper substrate, and the upper semiconductor chip is connected to the second surface of the upper substrate.

A method of manufacturing a semiconductor structure includes the following operations. A wafer includes a crystal orientation represented by a family of Miller indices comprising <lmn>, wherein l.sup.2+m.sup.2+n.sup.2=1. A first chip and a second chip are over the wafer. A first edge of the first chip and a second edge of the second chip are adjacent to each other. A boundary extending in a direction between the first edge and the second edge is formed. A first included angle between the first direction and the crystal orientation is greater than or equal to 0 degree and less than 45 degrees.

A method of manufacturing a semiconductor structure includes the following operations. A wafer includes a crystal orientation represented by a family of Miller indices comprising <lmn>, wherein l.sup.2+m.sup.2+n.sup.2=1. A first chip and a second chip are over the wafer. A first edge of the first chip and a second edge of the second chip are adjacent to each other. A boundary extending in a direction between the first edge and the second edge is formed. A first included angle between the first direction and the crystal orientation is greater than or equal to 0 degree and less than 45 degrees.

An integrated circuit device may include a programmable fabric die having programmable logic fabric and configuration memory that may configure the programmable logic fabric. The integrated circuit device may also include a base die that may provide fabric support circuitry, including memory and/or communication interfaces. The first die and the second die may be coupled using a multi-purpose interface that may allow communication between the first die and the second die. The multi-purpose interface may allow concurrent access to the base die by the programmable logic fabric and the configuration memory by using multiple channels over the multi-purpose interface.

An integrated circuit device may include a programmable fabric die having programmable logic fabric and configuration memory that may configure the programmable logic fabric. The integrated circuit device may also include a base die that may provide fabric support circuitry, including memory and/or communication interfaces. The first die and the second die may be coupled using a multi-purpose interface that may allow communication between the first die and the second die. The multi-purpose interface may allow concurrent access to the base die by the programmable logic fabric and the configuration memory by using multiple channels over the multi-purpose interface.

Disclosed in the present specification is a micro LED display device, and a manufacturing method therefor, the method forming, in advance, an anisotropic conductive adhesive paste layer only on a conductive electrode part of a semiconductor light emitting element and on a peripheral part thereof, and then transferring the anisotropic conductive adhesive paste layer to a wiring substrate, thereby simultaneously performing a transfer step and a stable wiring step.

Disclosed in the present specification is a micro LED display device, and a manufacturing method therefor, the method forming, in advance, an anisotropic conductive adhesive paste layer only on a conductive electrode part of a semiconductor light emitting element and on a peripheral part thereof, and then transferring the anisotropic conductive adhesive paste layer to a wiring substrate, thereby simultaneously performing a transfer step and a stable wiring step.

A semiconductor package includes an upper substrate having a first surface and a second surface which are opposite to each other, a lower semiconductor chip disposed on the first surface of the upper substrate, a plurality of conductive pillars disposed on the first surface of the upper substrate at at least one side of the lower semiconductor chip, and an upper semiconductor chip disposed on the second surface of the upper substrate. The lower semiconductor chip and the plurality of conductive pillars are connected to the first surface of the upper substrate, and the upper semiconductor chip is connected to the second surface of the upper substrate.

A semiconductor package includes an upper substrate having a first surface and a second surface which are opposite to each other, a lower semiconductor chip disposed on the first surface of the upper substrate, a plurality of conductive pillars disposed on the first surface of the upper substrate at at least one side of the lower semiconductor chip, and an upper semiconductor chip disposed on the second surface of the upper substrate. The lower semiconductor chip and the plurality of conductive pillars are connected to the first surface of the upper substrate, and the upper semiconductor chip is connected to the second surface of the upper substrate.

A semiconductor package may be presented. The semiconductor package includes a first dielectric layer including a first surface and a second surface. First and second conductive lands are disposed on the first surface of the first dielectric layer. A first column formed by the first conductive lands and a second column formed by the second conductive lands are spaced apart from each other. Outer traces extend from the second conductive lands, and inner traces are disposed on the second surface of the first dielectric layer. Vias penetrate the first dielectric layer and respectively connect the first conductive lands to the inner traces. A semiconductor die is disposed on the first surface of the first dielectric layer.