A semiconductor device and a method of forming the same are provided. The semiconductor device includes a die structure including a plurality of die regions and a plurality of first seal rings. Each of the plurality of first seal rings surrounds a corresponding die region of the plurality of die regions. The semiconductor device further includes a second seal ring surrounding the plurality of first seal rings and a plurality of connectors bonded to the die structure. Each of the plurality of connectors has an elongated plan-view shape. A long axis of the elongated plan-view shape of each of the plurality of connectors is oriented toward a center of the die structure.

A chip package structure is provided. The chip package structure includes a first chip structure including a substrate and an interconnect layer over the substrate. The chip package structure includes a second chip structure over the interconnect layer. The chip package structure includes a first conductive bump connected between the interconnect layer and the second chip structure. The chip package structure includes a conductive pillar over the interconnect layer. The chip package structure includes a molding layer over the interconnect layer and surrounding the second chip structure, the first conductive bump, and the conductive pillar. The chip package structure includes a second conductive bump over a first surface of the conductive pillar. The first surface faces away from the first chip structure.

A chip package structure is provided. The chip package structure includes a first chip structure including a substrate and an interconnect layer over the substrate. The chip package structure includes a second chip structure over the interconnect layer. The chip package structure includes a first conductive bump connected between the interconnect layer and the second chip structure. The chip package structure includes a conductive pillar over the interconnect layer. The chip package structure includes a molding layer over the interconnect layer and surrounding the second chip structure, the first conductive bump, and the conductive pillar. The chip package structure includes a second conductive bump over a first surface of the conductive pillar. The first surface faces away from the first chip structure.

A semiconductor device includes: a resin layer having a resin main surface; a mounting wiring layer arranged on the resin main surface, and having a mounting wiring main surface facing the same side as the resin main surface and a mounting wiring back surface facing the side of the resin main surface; a semiconductor element including an element wiring layer which is mounted on the mounting wiring main surface, has an element wiring main surface facing the side of the resin layer, and is connected to the mounting wiring layer; and a sealing resin which seals the mounting wiring layer and the semiconductor element, wherein the mounting wiring main surface and the element wiring main surface are rough surfaces having a larger surface roughness than the mounting wiring back surface.

Disclosed is a method for manufacturing a semiconductor device which includes: a semiconductor chip; a substrate and/or another semiconductor chip; and an adhesive layer interposed therebetween. This method comprises the steps of: heating and pressuring a laminate having: the semiconductor chip; the substrate; the another semiconductor chip or a semiconductor wafer; and the adhesive layer by interposing the laminate with pressing members for temporary press-bonding to thereby temporarily press-bond the substrate and the another semiconductor chip or the semiconductor wafer to the semiconductor chip; and heating and pressuring the laminate by interposing the laminate with pressing members for main press-bonding, which are separately prepared from the pressing members for temporary press-bonding, to thereby electrically connect a connection portion of the semiconductor chip and a connection portion of the substrate or the another semiconductor chip.

Disclosed is a method for manufacturing a semiconductor device which includes: a semiconductor chip; a substrate and/or another semiconductor chip; and an adhesive layer interposed therebetween. This method comprises the steps of: heating and pressuring a laminate having: the semiconductor chip; the substrate; the another semiconductor chip or a semiconductor wafer; and the adhesive layer by interposing the laminate with pressing members for temporary press-bonding to thereby temporarily press-bond the substrate and the another semiconductor chip or the semiconductor wafer to the semiconductor chip; and heating and pressuring the laminate by interposing the laminate with pressing members for main press-bonding, which are separately prepared from the pressing members for temporary press-bonding, to thereby electrically connect a connection portion of the semiconductor chip and a connection portion of the substrate or the another semiconductor chip.

A package structure and a method of forming the same are provided. The package structure includes a package substrate and an interposer substrate over the package substrate. The interposer substrate has a first surface facing the package substrate and a second surface opposite the first surface. A first semiconductor device is disposed on the first surface, and a second semiconductor device is disposed on the second surface. Conductive structures are disposed between the interposer substrate and the package substrate. The first semiconductor device is located between the conductive structures. A first side of the first semiconductor device is at a first distance from the most adjacent conductive structure, and a second side of the first semiconductor device is at a second distance from the most adjacent conductive structure. The first side is opposite the second side, and the first distance is greater than the second distance.

A package structure and a method of forming the same are provided. The package structure includes a package substrate and an interposer substrate over the package substrate. The interposer substrate has a first surface facing the package substrate and a second surface opposite the first surface. A first semiconductor device is disposed on the first surface, and a second semiconductor device is disposed on the second surface. Conductive structures are disposed between the interposer substrate and the package substrate. The first semiconductor device is located between the conductive structures. A first side of the first semiconductor device is at a first distance from the most adjacent conductive structure, and a second side of the first semiconductor device is at a second distance from the most adjacent conductive structure. The first side is opposite the second side, and the first distance is greater than the second distance.

A method of manufacturing the semiconductor structure includes: providing a substrate; forming a first conductive via and a second conductive via extending in the substrate; depositing a first dielectric layer over the substrate and the first and second conductive vias; receiving a waveguide; moving the waveguide to a location over the first dielectric layer and aligning the waveguide with a position of the first dielectric layer; attaching the waveguide to the position of the first dielectric layer; forming a first conductive member and a second conductive member over the waveguide, the first conductive member and the second conductive member being in contact with the waveguide; and etching a backside of the substrate to electrically expose the first and second conductive vias. The first conductive member or the second conductive member is electrically connected to the first or second conductive via.

A method of manufacturing the semiconductor structure includes: providing a substrate; forming a first conductive via and a second conductive via extending in the substrate; depositing a first dielectric layer over the substrate and the first and second conductive vias; receiving a waveguide; moving the waveguide to a location over the first dielectric layer and aligning the waveguide with a position of the first dielectric layer; attaching the waveguide to the position of the first dielectric layer; forming a first conductive member and a second conductive member over the waveguide, the first conductive member and the second conductive member being in contact with the waveguide; and etching a backside of the substrate to electrically expose the first and second conductive vias. The first conductive member or the second conductive member is electrically connected to the first or second conductive via.