A semiconductor package includes a package substrate, a first semiconductor chip mounted on the package substrate, a first molding layer on the package substrate and surrounding the first semiconductor chip, a redistribution layer on the first molding layer, a first through via that vertically penetrates the first molding layer and connects the package substrate to the redistribution layer, a second semiconductor chip mounted on the redistribution layer, a second molding layer on the redistribution layer and surrounding the second semiconductor chip, and a second through via that vertically penetrates the second molding layer and is connected to the redistribution layer. A first width of the first through via is less than a second width of the second through via. The second through via is electrically floated from a signal circuit of the second semiconductor chip.

A semiconductor package includes a first semiconductor chip on a base chip, a second semiconductor chip on the first semiconductor chip in a first direction, each of the first and second semiconductor chips including a TSV and being electrically connected to each other via the TSV, dam structures on the base chip and surrounding a periphery of the first semiconductor chip, a first adhesive film between the base chip and the first semiconductor chip, a portion of the first adhesive film filling a space between the first semiconductor chip and the dam structures, a second adhesive film between the first semiconductor chip and the second semiconductor chip, a portion of the second adhesive film overlapping the dam structures in the first direction, and an encapsulant encapsulating a portion of each of the dam structures, the first semiconductor chip, and the second semiconductor chip.

Package structure with folded die arrangements and methods of fabrication are described. In an embodiment, a package structure includes a first die and vertical interposer side-by-side. A second die is face down on an electrically connected with the vertical interposer, and a local interposer electrically connects the first die with the vertical interposer.

Multichip package manufacturing process is disclosed to form external pins at one side or each side of die-bonding area of package carrier board and to bond first IC and second IC to die-bonding area in stack. First IC and second IC each comprise transistor layer with core circuits, plurality of metal layers, plurality of VIA layers and solder pad layer. During production of first IC, design of at least one metal layer, VIA layer and dummy pads can be modified according to change of design of second IC. After chip probing, die sawing and bonding, wire bonding, packaging and final test are performed to package the package carrier board, first IC and second IC into automotive multichip package, achieving purpose of first IC only need to modify at least one layer or more than one layer to cooperate with second IC design change to carry out multichip packaging process.

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a first semiconductor structure including a first substrate, and a first circuit layer positioned on the first substrate, a first redistribution structure positioned on the first circuit layer, and a second semiconductor structure including a second circuit layer positioned on the first redistribution structure, and a second substrate positioned on the second circuit layer. A layout of the first circuit layer and a layout of the second circuit layer are substantially the same and the first redistribution structure is electrically coupled to the first semiconductor structure and the second semiconductor structure.

Semiconductor packages with pass-through clock traces and associated devices, systems, and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate including a first surface having a plurality of substrate contacts, a first semiconductor die having a lower surface attached to the first surface of the package substrate, and a second semiconductor die stacked on top of the first semiconductor die. The first semiconductor die includes an upper surface including a first conductive contact, and the second semiconductor die includes a second conductive contact. A first electrical connector electrically couples a first one of the plurality of substrate contacts to the first and second conductive contacts, and a second electrical connector electrically couples a second one of the plurality of substrate contacts to the first and second conductive contacts.

A semiconductor device includes a stack including alternately stacked conductive films and insulating films, wherein the stack includes an opening penetrating the conductive films and the insulating films, and wherein the stack includes a rounded corner that is exposed to the opening. The semiconductor device also includes a first channel film formed in the opening and including a first curved surface surrounding the rounded corner. The semiconductor device further includes a conductive pad formed in the opening, and a second channel film interposed between the first curved surface of the first channel film and the conductive pad.

A semiconductor package includes a package substrate, a lower semiconductor chip on the package substrate, an interposer on the lower semiconductor chip, the interposer including a plurality of pieces spaced apart from each other, an upper semiconductor chip on the interposer, and a molding member covering the lower semiconductor chip and the interposer.

In an embodiment, a device includes: a bottom integrated circuit die having a first front side and a first back side; a top integrated circuit die having a second front side and a second back side, the second back side being bonded to the first front side, the top integrated circuit die being free from through substrate vias (TSVs); a dielectric layer surrounding the top integrated circuit die, the dielectric layer being disposed on the first front side, the dielectric layer and the bottom integrated circuit die being laterally coterminous; and a through via extending through the dielectric layer, the through via being electrically coupled to the bottom integrated circuit die, surfaces of the through via, the dielectric layer, and the top integrated circuit die being planar.

A semiconductor device package and a method of manufacturing the same are provided. The semiconductor device package includes a first semiconductor element, a first redistribution layer, a second redistribution layer, and a conductive via. The first semiconductor element has a first active surface and a first back surface opposite to the first active surface. The first redistribution layer is disposed adjacent to the first back surface of the first semiconductor element. The second redistribution layer is disposed adjacent to the first active surface of the first semiconductor element. The conductive via is disposed between the first redistribution layer and the second redistribution layer, where the conductive via inclines inwardly from the second redistribution layer to the first redistribution layer.