Embodiments disclosed herein include an electronics package comprising stacked dies. In an embodiment, the electronics package comprises a first die that includes a plurality of first conductive interconnects extending out from a first surface of the first die. In an embodiment, the first die further comprises a keep out zone. In an embodiment, the electronic package may also comprise a second die. In an embodiment, the second die is positioned entirely within a perimeter of the keep out zone of the first die. In an embodiment, a first surface of the second die faces the first surface of the first die.

In embodiments, a semiconductor package may include a first die and a second die. The package may additionally include a serializer/deserializer (SerDes) die coupled with the first and the second dies. The SerDes die may be configured to serialize signals transmitted from the first die to the second die, and deserialize signals received from the second die. Other embodiments may be described and/or claimed.

A memory device includes a memory array, a circuit structure, a bonding structure between the memory array and the circuit structure, and a shielding structure between the memory array and the circuit structure and surrounding the bonding structure. The bonding structure includes a first bonding pattern and a second bonding pattern. The circuit structure is electrically connected with the memory array through the bonding structure. The shielding structure includes a third bonding pattern and a fourth bonding pattern. The first bonding pattern is in contact with the second bonding pattern at a first interface between the first bonding pattern and the second bonding pattern. The third bonding pattern is in contact with the fourth bonding pattern at a second interface between the third bonding pattern and the fourth bonding pattern.

An integrated circuit device includes: a lower memory stack including a plurality of lower word lines located on a substrate, an upper memory stack located on the lower memory stack and including a plurality of upper word lines, at least one first lower interconnection layer extending in a horizontal direction at a first vertical level between the lower memory stack and the upper memory stack, and configured to be electrically connected to at least one lower word line selected from the plurality of lower word lines, a separate insulating film covering at least one first lower interconnection layer, and at least one first upper interconnection layer extending in the horizontal direction at a second vertical level higher than the upper memory stack, and configured to be electrically connected to at least one upper word line selected from the upper word lines.

An integrated memory assembly comprises a memory die and a control die bonded to the memory die. The memory die includes a memory structure of non-volatile memory cells. The control die is configured to program user data to and read user data from the memory die in response to commands from a memory controller. To utilize space more efficiently on the memory die, the control die compacts fragmented data on the memory die.

A semiconductor package including a semiconductor chip, an interposer on the semiconductor chip, and a molding layer covering at least a portion of the semiconductor chip and at least a portion of the interposer may be provided. The interposer includes a interposer substrate and a heat dissipation pattern penetrating the interposer substrate and electrically insulated from the semiconductor chip. The heat dissipation pattern includes a through electrode disposed in the interposer substrate and an upper pad disposed on an upper surface of the interposer substrate and connected to the through electrode. The molding layer covers at least a portion of a sidewall of the upper pad and the upper surface of the interposer substrate. At least a portion of an upper surface of the upper pad is not covered by the molding layer.

A discrete three-dimensional (3-D) processor comprises stacked first and second dice. The first die comprises 3-D memory (3D-M) arrays, whereas the second die comprises logic circuits and at least an off-die peripheral-circuit component of the 3D-M array(s). In one preferred embodiment, the first and second dice are face-to-face bonded. In another preferred embodiment, the first and second dice have a same die size.

A discrete three-dimensional (3-D) processor comprises first and second dice. The first die comprises 3-D memory (3D-M) arrays, whereas the second die comprises logic circuits and at least an off-die peripheral-circuit component of the 3D-M array(s). Typical off-die peripheral-circuit component could be an address decoder, a sense amplifier, a programming circuit, a read-voltage generator, a write-voltage generator, a data buffer, or a portion thereof.

A discrete three-dimensional (3-D) processor comprises stacked first and second dice. The first die comprises three-dimensional memory (3D-M) arrays, whereas the second die comprises at least a portion of a logic/processing circuit and an off-die peripheral-circuit component of the 3D-M array(s). The preferred 3-D processor can be used to compute non-arithmetic function/model. In other applications, the preferred 3-D processor may also be a 3-D configurable computing array, a 3-D pattern processor, or a 3-D neuro-processor.

A bonded assembly includes a first semiconductor die and a second semiconductor die that are bonded to each other by dielectric-to-dielectric bonding. First conductive via structures vertically extend through the second semiconductor die and a respective subset of the first dielectric material layers in the first semiconductor die, and contact a respective first metal interconnect structure in the first semiconductor die. Second conductive via structures vertically extend through a second substrate and a respective subset of the second dielectric material layers in the second semiconductor die, and contacting a respective second metal interconnect structure in the second semiconductor die. Redistribution metal interconnect structures located over a backside surface of the second substrate electrically connect the first conductive via structures and the second conductive via structures, and provide electrical interconnection between the first semiconductor die and the second semiconductor die.