A method includes forming a first package component, and forming a first plurality of electrical connectors at a first surface of the first package component. The first plurality of electrical connectors are laid out as having a honeycomb pattern. A second package component is bonded to the first package component, wherein a second plurality of electrical connectors at a second surface of the second package component are bonded to the first plurality of electrical connectors.

Embodiments disclosed herein include electronic packages. In an embodiment, the electronic package comprises, a package substrate, an interposer on the package substrate, a first die cube and a second die cube on the interposer, wherein the interposer includes conductive traces for electrically coupling the first die cube to the second die cube, a die on the package substrate, and an embedded multi-die interconnect bridge (EMIB) in the package substrate, wherein the EMIB electrically couples the interposer to the die.

The display device includes a flexible base layer including a first region and a second region located around the first; a display unit on one surface of the first region and including a light emitting element; a driving circuit on the second region and including a plurality of first bumps arranged in a first row and a plurality of second bumps arranged in a second row, the driving circuit includes a third bump in the first row and disposed outward relative to the plurality of first bumps, a first and second reference bump each disposed at a center of the plurality of first and second bumps that are disposed along a reference line defined in a column direction vertically intersecting a row direction, the remaining first and second bumps excluding the first reference bump and the second reference bump arranged to have a preset slope with respect to the reference line.

Embodiments disclosed herein include an interconnect. In an embodiment, the interconnect comprises a substrate and a pad over the substrate. In an embodiment, a hole is provided through the pad. In an embodiment, the hole exposes a portion of the substrate. In an embodiment, a solder is provided over the pad, and the solder bridges across the hole through the pad.

A method includes forming a first package component, and forming a first plurality of electrical connectors at a first surface of the first package component. The first plurality of electrical connectors are laid out as having a honeycomb pattern. A second package component is bonded to the first package component, wherein a second plurality of electrical connectors at a second surface of the second package component are bonded to the first plurality of electrical connectors.

A semiconductor structure is provided. The semiconductor structure includes a semiconductor substrate and a first conductive bump. The semiconductor substrate has an integrated circuit and an interconnection metal layer, and a tilt surface is formed on an edge of the semiconductor substrate. The first conductive bump is electrically connected to the integrated circuit via the interconnection metal layer, and is disposed on the tilt surface, wherein a profile of the first conductive bump extends beyond a side surface of the edge of the semiconductor layer.

A COF package structure includes a flexible substrate and a chip. A chip mounting area is defined on an upper surface of a flexible base of the flexible substrate. A circuit layer of the flexible substrate includes a plurality of first upper leads, second upper leads, first conductive vias and lower leads. The second upper leads are disposed in the chip mounting area and divided into groups, and each second upper lead has a second inner end and an upper pad opposite to each other. The upper pads of each group are arranged layer by layer into at least two rows. There are two upper pads symmetrically arranged on both sides of a reference line of each group on at least one row furthest from the second inner ends. The first conductive vias connect the upper pads and the lower leads. The chip is mounted in the chip mounting area.

A semiconductor structure is provided. The semiconductor structure includes a semiconductor substrate and a first conductive bump. The semiconductor substrate has an integrated circuit and an interconnection metal layer, and a tilt surface is formed on an edge of the semiconductor substrate. The first conductive bump is electrically connected to the integrated circuit via the interconnection metal layer, and is disposed on the tilt surface, wherein a profile of the first conductive bump extends beyond a side surface of the edge of the semiconductor layer.

A COF package structure includes a flexible substrate and a chip. A chip mounting area is defined on an upper surface of a flexible base of the flexible substrate. A circuit layer of the flexible substrate includes a plurality of first upper leads, second upper leads, first conductive vias and lower leads. The second upper leads are disposed in the chip mounting area and divided into groups, and each second upper lead has a second inner end and an upper pad opposite to each other. The upper pads of each group are arranged layer by layer into at least two rows. There are two upper pads symmetrically arranged on both sides of a reference line of each group on at least one row furthest from the second inner ends. The first conductive vias connect the upper pads and the lower leads. The chip is mounted in the chip mounting area.

The display device includes a flexible base layer including a first region and a second region located around the first; a display unit on one surface of the first region and including a light emitting element; a driving circuit on the second region and including a plurality of first bumps arranged in a first row and a plurality of second bumps arranged in a second row, the driving circuit includes a third bump in the first row and disposed outward relative to the plurality of first bumps, a first and second reference bump each disposed at a center of the plurality of first and second bumps that are disposed along a reference line defined in a column direction vertically intersecting a row direction, the remaining first and second bumps excluding the first reference bump and the second reference bump arranged to have a preset slope with respect to the reference line.