Provided are a package structure and a method of forming the same. The package structure includes a first die, a second die group, an interposer, an underfill layer, a thermal interface material (TIM), and an adhesive pattern. The first die and the second die group are disposed side by side on the interposer. The underfill layer is disposed between the first die and the second die group. The adhesive pattern at least overlay the underfill layer between the first die and the second die group. The TIM has a bottom surface being in direct contact with the first die, the second die group, and the adhesive pattern. The adhesive pattern separates the underfill layer from the TIM.

A semiconductor module includes a laminated substrate having an insulating plate, a circuit pattern arranged on an upper surface of the insulating plate and a heat dissipating plate arranged on a lower surface of the insulating plate. The semiconductor module also includes a semiconductor device having a collector electrode arranged on its upper surface, having an emitter electrode and a gate electrode arranged on its lower surface, and bumps respectively bonding the emitter electrode and the gate electrode to an upper surface of the circuit pattern. Each of the bumps is made of a metal sintered material such that the bump is formed to be constricted in its middle portion in a thickness direction orthogonal to a surface of the insulating plate.

A semiconductor device includes a first semiconductor chip having a first surface and a second surface; a first adhesive layer on the first surface; a second semiconductor chip that includes a third surface and a fourth surface, and a connection bump on the third surface. The connection bump is coupled to the first adhesive layer. The semiconductor device includes a wiring substrate connected to the connection bump. The semiconductor device includes a first resin layer covering the connection bump between the second semiconductor chip and the wiring substrate, and covers one side surface of the second semiconductor chip connecting the third surface and the fourth surface. The first adhesive layer covers an upper portion of the at least one side surface. The first resin layer covers a lower portion of the t least one side surface. The first adhesive layer and the first resin layer contact each other.

A semiconductor storage device according to an embodiment includes a substrate, a first semiconductor chip, and a second semiconductor chip. The first semiconductor chip includes a first surface contacting with the substrate, a second surface on an opposite side to the first surface, and a first pad provided on the second surface. The second semiconductor chip includes a third surface contacting with the second surface, a fourth surface on an opposite side to the third surface, and a cutout portion. The cutout portion is provided at a corner portion where the third surface crosses a lateral surface between the third surface and the fourth surface. The cutout portion overlaps with at least a part of the first pad as viewed from above the fourth surface.

Provided is a semiconductor package, including a lower semiconductor chip, a plurality of semiconductor chips that are disposed on the lower semiconductor chip in a first direction perpendicular to a top surface of the lower semiconductor chip, a plurality of nonconductive layers disposed between the plurality of semiconductor chips, a nonconductive pattern that extends from the nonconductive layers and is disposed on lateral surfaces of at least one of the plurality of semiconductor chips, a first mold layer disposed a top surface of the nonconductive pattern, and a second mold layer disposed a lateral surface of the nonconductive pattern and a lateral surface of the first mold layer, wherein the nonconductive pattern and the first mold layer are disposed between the second mold layer and lateral surfaces of the plurality of semiconductor chips.

A semiconductor assembly includes a first die and a second die. The semiconductor assembly also includes a film on die (FOD) layer configured to attach the first die to the second die. The FOD layer is disposed on a first surface of the first die. The FOD layer includes a first portion comprising a first die attach film (DAF) disposed on an inner region of the first surface. The FOD layer also includes a second portion that includes a second DAF disposed on a peripheral region of the first surface surrounding the inner region. The second DAF includes a different material than the first DAF.

In one embodiment, methods for making semiconductor devices are disclosed.

A die placement system provides a tip body and die placement head to ensure planarity of a die to substrate without the need for calibration prior to each pick and place operation. A self-aligning tip incorporated into a tip body aids in die placement/attachment. This tip provides for global correction of planarity errors that exist between a die and substrate, regardless of whether those errors stem from gantry (i.e. die-side misalignment) or machine deck tool (i.e. substrate-side misalignment) misalignment.

A semiconductor assembly includes a first die and a second die. The semiconductor assembly also includes a film on die (FOD) layer configured to attach the first die to the second die. The FOD layer is disposed on a first surface of the first die. The FOD layer includes a first portion comprising a first die attach film (DAF) disposed on an inner region of the first surface. The FOD layer also includes a second portion that includes a second DAF disposed on a peripheral region of the first surface surrounding the inner region. The second DAF includes a different material than the first DAF.

Provided is a semiconductor package having improved signal integrity (SI) and a chip stack structure of a plurality of semiconductor chips. The semiconductor package includes a package substrate, a chip stack structure on the package substrate and including at least two semiconductor chips, and an external connection terminal on a lower surface of the package substrate. A first semiconductor chip arranged uppermost in the chip stack structure is connected to a first bonding pad of the package substrate through a first wire. A second semiconductor chip arranged under the first semiconductor chip in the chip stack structure is connected to a second bonding pad of the package substrate through a second wire. When the first bonding pad is farther from the external connection terminal than the second bonding pad, the external connection terminal is connected to the first bonding pad through a wiring line of the package substrate.