A semiconductor device of the ball grid array (BGA) type, the device having an electrode, and a process of forming the electrode are disclosed. The electrode includes an insulating film, a seed layer on the insulating film, a mound metal on the insulating film and an interconnection on the seed layer. The mound metal surrounds the seed layer without forming any gap therebetween. The interconnection, which is formed by electroless plating, is apart from the insulating film with the mound metal as an extension barrier for the plating.

A technique which improves the reliability in coupling between a bump electrode of a semiconductor chip and wiring of a mounting substrate, more particularly a technique which guarantees the flatness of a bump electrode even when wiring lies in a top wiring layer under the bump electrode, thereby improving the reliability in coupling between the bump electrode and the wiring formed on a glass substrate. Wiring, comprised of a power line or signal line, and a dummy pattern are formed in a top wiring layer beneath a non-overlap region of a bump electrode. The dummy pattern is located to fill the space between wiring to reduce irregularities caused by the wiring and space in the top wiring layer. A surface protection film formed to cover the top wiring layer is flattened by CMP.

A method for fabricating integrated circuit (IC) dies and wafers having such dies, are disclosed herein that leverage temporary connection traces during wafer level testing of the functionality of the IC die. In one example, a wafer includes a plurality of IC dies. At least a first IC die of the plurality of IC dies includes a plurality of micro-bumps and a first temporary connection trace formed on an exterior surface of the die body. The plurality of micro-bumps includes at least a first micro-bump and a second micro-bump. The first temporary connection trace electrically couples the first micro-bump and the second micro-bump.

The present invention makes it possible to improve the reliability of a semiconductor device. The semiconductor device has, over a semiconductor substrate, a pad electrode formed at the uppermost layer of a plurality of wiring layers, a surface protective film having an opening over the pad electrode, a redistribution line being formed over the surface protective film and having an upper surface and a side surface, a sidewall barrier film comprising an insulating film covering the side surface and exposing the upper surface of the redistribution line, and a cap metallic film covering the upper surface of the redistribution line. Then the upper surface and side surface of the redistribution line are covered with the cap metallic film or the sidewall barrier film and the cap metallic film and the sidewall barrier film have an overlapping section.

A semiconductor device includes a semiconductor chip having a pad which is exposed through a passivation layer, a bump pillar formed over the passivation layer adjacent to the pad, but not overlapping with the pad. The semiconductor chip also has a solder layer including a solder bump portion which is formed over the bump pillar and a solder fillet portion which is formed at one side of the bump pillar facing the pad to cover the pad and electrically couples the bump pillar and the pad.

A semiconductor device includes a semiconductor chip having a pad which is exposed through a passivation layer, a bump pillar formed over the passivation layer adjacent to the pad, but not overlapping with the pad. The semiconductor chip also has a solder layer including a solder bump portion which is formed over the bump pillar and a solder fillet portion which is formed at one side of the bump pillar facing the pad to cover the pad and electrically couples the bump pillar and the pad.

Methods and apparatus are described for adding one or more features (e.g., high bandwidth memory (HBM)) to a qualified stacked silicon interconnect (SSI) technology programmable integrated circuit (IC) region by providing an interface (e.g., an HBM buffer region implemented with a hierarchical switch network) between the added feature device and the programmable IC region. One example apparatus generally includes a programmable IC region and an interface region configured to couple the programmable IC region to at least one fixed feature die via a first plurality of ports associated with the at least one fixed feature die and a second plurality of ports associated with the programmable IC region. The interface region is configured as a switch network between the first plurality of ports and the second plurality of ports, and the switch network includes a plurality of full crossbar switch networks.

The present invention makes it possible to improve the reliability of a semiconductor device. The semiconductor device has, over a semiconductor substrate, a pad electrode formed at the uppermost layer of a plurality of wiring layers, a surface protective film having an opening over the pad electrode, a redistribution line being formed over the surface protective film and having an upper surface and a side surface, a sidewall barrier film comprising an insulating film covering the side surface and exposing the upper surface of the redistribution line, and a cap metallic film covering the upper surface of the redistribution line. Then the upper surface and side surface of the redistribution line are covered with the cap metallic film or the sidewall barrier film and the cap metallic film and the sidewall barrier film have an overlapping section.

The present invention makes it possible to improve the reliability of a semiconductor device. The semiconductor device has, over a semiconductor substrate, a pad electrode formed at the uppermost layer of a plurality of wiring layers, a surface protective film having an opening over the pad electrode, a redistribution line being formed over the surface protective film and having an upper surface and a side surface, a sidewall barrier film comprising an insulating film covering the side surface and exposing the upper surface of the redistribution line, and a cap metallic film covering the upper surface of the redistribution line. Then the upper surface and side surface of the redistribution line are covered with the cap metallic film or the sidewall barrier film and the cap metallic film and the sidewall barrier film have an overlapping section.

An electronic device, an electronic module comprising the electronic device and methods for fabricating the same are disclosed. In one example, the electronic device includes a semiconductor substrate and a metal stack disposed on the semiconductor substrate, wherein the metal stack comprises a first layer, wherein the first layer comprises NiSi.