A method of manufacturing a semiconductor package includes: hybrid-bonding a semiconductor chip, including a through-silicon via, to an upper surface of a semiconductor wafer, wet-etching a surface of the semiconductor chip to expose the through-silicon via, covering the exposed through-silicon via with a material, including an organic resin and an inorganic filler, to form an encapsulation layer, removing an upper surface of the encapsulation layer to expose the through-silicon via, and forming a redistribution structure electrically connected to the through-silicon via.

A semiconductor structure includes an alternating stack of insulating layers and composite layers. Each of the composite layers includes a plurality of electrically conductive word line strips laterally extending along a first horizontal direction and a plurality of dielectric isolation strips laterally extending along the first horizontal direction and interlaced with the plurality of electrically conductive word line strips. Rows of memory openings are arranged along the first horizontal direction. Each row of memory openings vertically extends through each insulating layer within the alternating stack and one electrically conductive strip for each of the composite layers. Rows of memory opening fill structures are located within the rows of memory openings. Each of the memory opening fill structures includes a respective vertical stack of memory elements and a respective vertical semiconductor channel.

A semiconductor device includes a first non-volatile memory structure including a first stack structure including first conductive lines stacked and spaced apart from each other and a first vertical memory structure penetrating through the first stack structure; a second non-volatile memory structure including a second stack structure including second conductive lines stacked and spaced apart from each other and a second vertical memory structure penetrating through the second stack structure; and a peripheral circuit structure electrically connected to the first and second non-volatile memory structures. The peripheral circuit structure, the first non-volatile memory structure, and the second non-volatile memory structure vertically overlap each other. The first vertical memory structure includes a first data storage structure including a first data storage material layer. The second vertical memory structure includes a second data storage structure including a second data storage material layer that is different from the first data storage material layer.

A semiconductor package includes a substrate, an interposer, a primary component layer, a first redistribution layer, multiple solder bumps and a first hybrid bonding structure. The interposer is disposed above the substrate and includes multiple TSV sets. The primary component layer is disposed above the interposer and includes multiple first chips and a first molding material that fills the space between the multiple first chips. The first redistribution layer is disposed between the primary component layer and the interposer and includes at least one portion of an antenna structure. The plurality of solder bumps is disposed between the substrate and the interposer. The first hybrid bonding structure is disposed between the multiple first chips and the multiple TSV sets for electrical connection in between and includes multiple connection components that respectively apply bonding of multiple metal pieces in between.

Semiconductor die assemblies with molded semiconductor dies, and associated methods and systems are disclosed. In some embodiments, a semiconductor die assembly includes a package substrate and a controller die attached to the package substrate. The semiconductor die assembly comprises a mold structure including the controller die and having a surface facing away from the package substrate. The controller die may be completely encased within the mold structure. Further, one or more stacks of semiconductor dies (e.g., memory dies) are attached to the surface of the mold structure. Accordingly, the semiconductor die assembly does not include support structures for the stacks of semiconductor dies attached above the controller die.

A semiconductor device includes a first insulating layer, wire contacts spaced apart from each other by the first insulating layer, and a bonding wire connected to the wire contacts. Each of the wire contacts includes a base part in the first insulating layer and a protrusion part protruding from inside to outside the first insulating layer. The protrusion parts of the wire contacts are in contact with the bonding wire.

A semiconductor device includes a first insulating layer, wire contacts spaced apart from each other by the first insulating layer, and a bonding wire connected to the wire contacts. Each of the wire contacts includes a base part in the first insulating layer and a protrusion part protruding from inside to outside the first insulating layer. The protrusion parts of the wire contacts are in contact with the bonding wire.

In certain aspects, a memory device includes a vertical transistor, a storage unit, a bit line, and a body line. The vertical transistor includes a semiconductor body extending in a first direction. The semiconductor body includes a doped source, a doped drain, and a channel portion. The storage unit is coupled to a first terminal. The first terminal is one of the source and the drain. The bit line extends in a second direction perpendicular to the first direction and coupled to a second terminal. The second terminal is another one of the source and the drain. The body line is coupled to the channel portion of the semiconductor body.

A non-volatile memory includes a first semiconductor layer vertically stacked on a second semiconductor layer and including a first memory group, a second memory group, a third memory group and a fourth memory group. The second semiconductor layer includes a first region, a second region, a third region and a fourth region respectively underlying the first memory group, second memory group, third memory group and fourth memory group. The first region includes one driving circuit connected to memory cells of one of the second memory group, third memory group and fourth memory group through a first word line, and another driving circuit connected to memory cells of the first memory group through a first bit line, wherein the first word line and first bit line extend in the same horizontal direction.

A non-volatile memory includes a first semiconductor layer vertically stacked on a second semiconductor layer and including a first memory group, a second memory group, a third memory group and a fourth memory group. The second semiconductor layer includes a first region, a second region, a third region and a fourth region respectively underlying the first memory group, second memory group, third memory group and fourth memory group. The first region includes one driving circuit connected to memory cells of one of the second memory group, third memory group and fourth memory group through a first word line, and another driving circuit connected to memory cells of the first memory group through a first bit line, wherein the first word line and first bit line extend in the same horizontal direction.