A semiconductor package is provided. The semiconductor package includes a first conductive layer, a plurality of first conductive pads, a plurality of second conductive pads, and a first dielectric layer. The first conductive pads are electrically connected to the first conductive layer. The second conductive pads are electrically disconnected from the first conductive layer.

Provided are package-on-package (POP)-type semiconductor packages including a lower package having a first size and including a lower package substrate in which a lower semiconductor chip is, an upper redistribution structure on the lower package substrate and the lower semiconductor chip, and alignment marks. The packages may also include an upper package having a second size smaller than the first size and including an upper package substrate and an upper semiconductor chip. The upper package substrate may be mounted on the upper redistribution structure of the lower package and electrically connected to the lower package, and the upper semiconductor chip may be on the upper package substrate. The alignment marks may be used for identifying the upper package, and the alignment marks may be below and near outer boundaries of the upper package on the lower package.

Semiconductor devices having interconnect structures with vertically offset bonding surfaces, and associated systems and methods, are disclosed herein. In one embodiment, a semiconductor device includes a semiconductor substrate at least partially covered by a first dielectric material having an upper surface, and an interconnect structure extending therefrom. The interconnect structure can include a plurality of conductive elements, and a continuous region of a first insulating material at least partially between the plurality of conductive elements. The plurality of conductive elements and the continuous region can have coplanar end surfaces. The interconnect structure can further include a perimeter structure at least partially surrounding the plurality of conductive elements and the continuous region. The perimeter structure can have an uppermost surface that can be vertically offset from the upper surface of the first dielectric material and/or the coplanar end surfaces.

A method for forming a semiconductor structure includes receiving a first die having a first interconnect structure and a first bonding layer over the first interconnect structure, and a second die having a second interconnect structure and a second bonding layer over the second interconnect structure; forming a recess indenting into the first bonding layer; and forming a positioning member on the second bonding layer. The method further includes bonding the second die over the first die; and disposing the positioning member into the recess. The positioning member includes dielectric, is surrounded by the first bonding layer, and is isolated from the first interconnect structure and the second interconnect structure.

Semiconductor devices having interconnect structures with vertically offset bonding surfaces, and associated systems and methods, are disclosed herein. In one embodiment, a semiconductor device includes a semiconductor substrate at least partially covered by a first dielectric material having an upper surface, and an interconnect structure extending therefrom. The interconnect structure can include a plurality of conductive elements, and a continuous region of a first insulating material at least partially between the plurality of conductive elements. The plurality of conductive elements and the continuous region can have coplanar end surfaces. The interconnect structure can further include a perimeter structure at least partially surrounding the plurality of conductive elements and the continuous region. The perimeter structure can have an uppermost surface that can be vertically offset from the upper surface of the first dielectric material and/or the coplanar end surfaces.

Provided are package-on-package (POP)-type semiconductor packages including a lower package having a first size and including a lower package substrate in which a lower semiconductor chip is, an upper redistribution structure on the lower package substrate and the lower semiconductor chip, and alignment marks. The packages may also include an upper package having a second size smaller than the first size and including an upper package substrate and an upper semiconductor chip. The upper package substrate may be mounted on the upper redistribution structure of the lower package and electrically connected to the lower package, and the upper semiconductor chip may be on the upper package substrate. The alignment marks may be used for identifying the upper package, and the alignment marks may be below and near outer boundaries of the upper package on the lower package.

A semiconductor device having a three-dimensional structure includes a first wafer including a first bonding pad on one surface thereof; a second wafer including a second bonding pad, which is bonded to the first bonding pad, on one surface thereof bonded to the one surface of the first wafer; a plurality of anti-warpage grooves on the one surface of the first wafer, and laid out in a stripe shape; and a plurality of anti-warpage ribs on the one surface of the second wafer and coupled respectively to the plurality of anti-warpage grooves, and laid out in a stripe shape.

Embodiments disclosed herein include semiconductor devices. In one embodiment, a die comprises a substrate, where the substrate comprises a semiconductor material. In an embodiment, a backend layer is over the substrate, where the backend layer comprises conductive routing. In an embodiment, the die further comprises a protrusion extending out from an edge of the substrate and the backend layer. In an embodiment, a fiducial is on a surface of the protrusion.

Semiconductor devices having interconnect structures with vertically offset bonding surfaces, and associated systems and methods, are disclosed herein. In one embodiment, a semiconductor device includes a semiconductor substrate at least partially covered by a first dielectric material having an upper surface, and an interconnect structure extending therefrom. The interconnect structure can include a plurality of conductive elements, and a continuous region of a first insulating material at least partially between the plurality of conductive elements. The plurality of conductive elements and the continuous region can have coplanar end surfaces. The interconnect structure can further include a perimeter structure at least partially surrounding the plurality of conductive elements and the continuous region. The perimeter structure can have an uppermost surface that can be vertically offset from the upper surface of the first dielectric material and/or the coplanar end surfaces.

A semiconductor package includes a support substrate; a stress relaxation layer provided on a main surface of the support substrate; a semiconductor device located on the stress relaxation layer; an encapsulation material covering the semiconductor device, the encapsulation material being formed of an insulating material different from that of the stress relaxation layer; a line running through the encapsulation material and electrically connected to the semiconductor device; and an external terminal electrically connected to the line. Where the support substrate has an elastic modulus of A, the stress relaxation layer has an elastic modulus of B, and the encapsulation material has an elastic modulus of C under a same temperature condition, the relationship of A>C>B or C>A>B is obtained.