In an embodiment, a device includes: a package component including: a first integrated circuit die; an encapsulant at least partially surrounding the first integrated circuit die; a redistribution structure on the encapsulant, the redistribution structure physically and electrically coupling the first integrated circuit die; a first module socket attached to the redistribution structure; an interposer attached to the redistribution structure adjacent the first module socket, the outermost extent of the interposer extending beyond the outermost extent of the redistribution structure; and an external connector attached to the interposer.

In an embodiment, a device includes: a package component including: a first integrated circuit die; an encapsulant at least partially surrounding the first integrated circuit die; a redistribution structure on the encapsulant, the redistribution structure physically and electrically coupling the first integrated circuit die; a first module socket attached to the redistribution structure; an interposer attached to the redistribution structure adjacent the first module socket, the outermost extent of the interposer extending beyond the outermost extent of the redistribution structure; and an external connector attached to the interposer.

A semiconductor device and method is disclosed. Devices shown include a die coupled to an integrated routing layer, wherein the integrated routing layer includes a first width that is wider than the die. Devices shown further included a molded routing layer coupled to the integrated routing layer.

A semiconductor device and method is disclosed. Devices shown include a die coupled to an integrated routing layer, wherein the integrated routing layer includes a first width that is wider than the die. Devices shown further included a molded routing layer coupled to the integrated routing layer.

An atomic layer deposition (ALD) process for depositing a fluorine-containing thin film on a substrate can include a plurality of super-cycles. Each super-cycle may include a metal fluoride sub-cycle and a reducing sub-cycle. The metal fluoride sub-cycle may include contacting the substrate with a metal fluoride. The reducing sub-cycle may include alternately and sequentially contacting the substrate with a reducing agent and a nitrogen reactant.

An atomic layer deposition (ALD) process for depositing a fluorine-containing thin film on a substrate can include a plurality of super-cycles. Each super-cycle may include a metal fluoride sub-cycle and a reducing sub-cycle. The metal fluoride sub-cycle may include contacting the substrate with a metal fluoride. The reducing sub-cycle may include alternately and sequentially contacting the substrate with a reducing agent and a nitrogen reactant.

A manufacturing method of a semiconductor package includes the following steps. A chip is provided. The chip has an active surface and a rear surface opposite to the active surface. The chip includes conductive pads disposed at the active surface. A first solder-containing alloy layer is formed on the rear surface of the chip. A second solder-containing alloy layer is formed on a surface and at a location where the chip is to be attached. The chip is mounted to the surface and the first solder-containing alloy layer is aligned with the second solder-containing alloy layer. A reflow step is performed on the first and second solder-containing alloy layers to form a joint alloy layer between the chip and the surface.

A manufacturing method of a semiconductor package includes the following steps. A chip is provided. The chip has an active surface and a rear surface opposite to the active surface. The chip includes conductive pads disposed at the active surface. A first solder-containing alloy layer is formed on the rear surface of the chip. A second solder-containing alloy layer is formed on a surface and at a location where the chip is to be attached. The chip is mounted to the surface and the first solder-containing alloy layer is aligned with the second solder-containing alloy layer. A reflow step is performed on the first and second solder-containing alloy layers to form a joint alloy layer between the chip and the surface.

A method of forming a semiconductor package device includes: providing a substrate; bonding a first die to an upper surface of the substrate through a bonding layer; bonding a second die to the upper surface of the substrate through the bonding layer, the second die laterally separated from the first die; depositing an insulation material between the first die and the second die and filling a gap measured between sidewalk of the first die and the second die; forming a first interconnect layer over the first die and the second die to form the semiconductor package device; and performing a testing operation on semiconductor package device with the substrate in place. A Young's modulus of the substrate is greater than that of the insulation material.

A method of forming a semiconductor package device includes: providing a substrate; bonding a first die to an upper surface of the substrate through a bonding layer; bonding a second die to the upper surface of the substrate through the bonding layer, the second die laterally separated from the first die; depositing an insulation material between the first die and the second die and filling a gap measured between sidewalk of the first die and the second die; forming a first interconnect layer over the first die and the second die to form the semiconductor package device; and performing a testing operation on semiconductor package device with the substrate in place. A Young's modulus of the substrate is greater than that of the insulation material.