A semiconductor package includes first semiconductor chips stacked on a package substrate, a lowermost first semiconductor chip of the first semiconductor chips including a recessed region, and a second semiconductor chip inserted in the recessed region, the second semiconductor chip being connected to the package substrate.

Stacked die modules for semiconductor device assemblies and methods of manufacturing the modules are disclosed. In some embodiments, the module includes a shingled stack of semiconductor dies, each die having an uncovered porch with bond pads. Further, a dielectric structure partially encapsulates the shingled stack of semiconductor dies. The dielectric structure includes openings corresponding to the bond pads. The module also includes conductive structures disposed on the dielectric structure, where each of the conductive structures extends over at least one porch of the semiconductor dies to connect to at least one bond pad through a corresponding opening. The semiconductor device assembly may include a controller die attached to a package substrate, the controller die carrying one or more stacked die modules, and bonding wires connecting terminals of the modules to package bond pads.

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.

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.

Layouts for data pads on a semiconductor die are disclosed. An apparatus may include circuits, a first edge, a second edge perpendicular to the first edge, a third edge opposite the first edge, and a fourth edge opposite the second edge. The apparatus may also include data pads variously electrically coupled to the circuits. The data pads may include a data pad positioned a first distance from the first edge and a second distance from the second edge. The apparatus may also include dummy data pads electrically isolated from the circuits. The dummy data pads may include a dummy data pad positioned substantially the first distance from the first edge and substantially the second distance from the fourth edge. Associated systems and methods are also disclosed.

Layouts for data pads on a semiconductor die are disclosed. An apparatus may include circuits, a first edge, a second edge perpendicular to the first edge, a third edge opposite the first edge, and a fourth edge opposite the second edge. The apparatus may also include data pads variously electrically coupled to the circuits. The data pads may include a data pad positioned a first distance from the first edge and a second distance from the second edge. The apparatus may also include dummy data pads electrically isolated from the circuits. The dummy data pads may include a dummy data pad positioned substantially the first distance from the first edge and substantially the second distance from the fourth edge. Associated systems and methods are also disclosed.

A semiconductor package includes a lower semiconductor chip, a first upper semiconductor chip including upper pads, and bonding wires coupled to the substrate and the upper pads. The first upper semiconductor chip has a first overhang region adjacent to a first lateral surface of the first upper semiconductor chip, a second overhang region adjacent to a second lateral surface of the first upper semiconductor chip, and a first corner overhang region adjacent to a corner where the first and second lateral surfaces meet with each other. The upper pads include first upper pads on the first overhang region and second upper pads on the second overhang region. The number of the first upper pads is less than that of the second upper pads. The upper pads are spaced apart from the first corner overhang region.

A semiconductor device of an embodiment includes: a wiring board; a semiconductor chip mounted on the wiring board; and a resin-containing layer bonded on the wiring board so as to fix the semiconductor chip to the wiring board. The resin-containing layer contains a resin-containing material having a breaking strength of 15 MPa or more at 125° C.

This application is directed to a stacked semiconductor device assembly including a plurality of identical stacked integrated circuit (IC) devices. Each IC device further includes a master interface, a channel master circuit, a slave interface, a channel slave circuit, a memory core, and a modal pad configured to receive a selection signal for the IC device to communicate data using one of its channel master circuit or its channel slave circuit. In some implementations, the IC devices include a first IC device and one or more second IC devices. In accordance with the selection signal, the first IC device is configured to communicate read/write data via the channel master circuit of the first IC device, and each of the one or more second IC devices is configured to communicate respective read/write data via the channel slave circuit of the respective second IC device.

A package substrate includes: a core insulation layer having first and second package regions and a boundary region between the first and second package regions; a first upper conductive pattern in the first package region; a second upper conductive pattern in the second package region; a first insulation pattern on the core insulation layer to partially expose the first and second upper conductive patterns, wherein the first insulation pattern includes a first trench at the boundary region, and first reinforcing portions in the first trench; a first lower conductive pattern in the first package region; a second lower conductive pattern in the second package region; and a second insulation pattern on the core insulation layer to partially expose the first and second lower conductive patterns, wherein the second insulation pattern includes a second trench at the boundary region, and second reinforcing portions in the second trench.