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.

A semiconductor device includes a first semiconductor chip including a plurality of first control electrodes, each of which is disposed at a respective one of corner portions on a first front surface thereof, a first output electrode disposed on the first front surface, and a first input electrode disposed on a first rear surface thereof, a second semiconductor chip including a plurality of second control electrodes, each of which is disposed at a respective one of corner portions on a second front surface thereof, a second output electrode disposed on the second front surface, and a second input electrode disposed on a second rear surface thereof, the second semiconductor chip being disposed adjacent to the first semiconductor chip, and a first connection wire which connects one of the first control electrodes and one of the second control electrodes.

A bonded body includes: a first base body including a first wiring, a first electrode made of an electroplating film and including a first surface having a first region covering a periphery of an end portion of the first wiring and a second region covering the end portion of the first wiring, and a first passivation layer made of an insulating material and covering a periphery of the first electrode; a second base body including a second electrode; and solder disposed between the first region of the first electrode and the second electrode.

A bonded body includes: a first base body including a first wiring, a first electrode made of an electroplating film and including a first surface having a first region covering a periphery of an end portion of the first wiring and a second region covering the end portion of the first wiring, and a first passivation layer made of an insulating material and covering a periphery of the first electrode; a second base body including a second electrode; and solder disposed between the first region of the first electrode and the second electrode.

A semiconductor device includes a first layer including a plurality of first pads, and a second layer including a plurality of second pads. The plurality of first pads are bonded to the plurality of second pads, respectively. At least one of the first pads or the second pads continuously surrounds an insulating portion.

Memory devices and associated methods and systems are disclosed herein. A representative memory device includes a substrate and a memory controller electrically coupled to the substrate. The memory controller can include a first in/out (I/O) channel and a second I/O channel. The memory device can further include a plurality of first memories and second memories coupled to the substrate and arranged in a stack in which the first memories are interleaved between the second memories. The memory device can further include (i) a plurality of first wire bonds electrically coupling the first memories to the first I/O channel of the memory controller and (ii) a plurality of second wire bonds electrically coupling the second memories to the second I/O channel.

A semiconductor package may include: a base layer; first to Nth semiconductor chips (N is a natural number of 2 or more) sequentially offset stacked over the base layer so that a chip pad portion of one side edge region is exposed, wherein the chip pad portion includes a chip pad and includes a redistribution pad that partially contacts the chip pad and extends away from the chip pad; and a bonding wire connecting the chip pad of a kth semiconductor chip among the first to Nth semiconductor chips to the redistribution pad of a k−1th semiconductor chip or a k+1th semiconductor chip when k is a natural number greater than 1 and the bonding wire connecting the chip pad of the kth semiconductor chip to a pad of the base layer or the redistribution pad of the k−1th semiconductor chip when k is 1.

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a first semiconductor structure, a second semiconductor structure, a through semiconductor via, and an insulation layer. The first semiconductor structure includes a first circuit layer and a first main bonding layer in the first circuit layer and substantially coplanar with a front face of the first circuit layer. The second semiconductor structure includes a second circuit layer on the first circuit layer and a second main bonding layer in the second circuit layer, and topologically aligned with and contacted to the first main bonding layer. The through semiconductor via is along the second semiconductor structure and the first and second main bonding layer, and extending to the first circuit layer. The insulation layer is positioned on a sidewall of the through semiconductor via.

An embodiment method for forming a semiconductor package includes attaching a first die to a first carrier, depositing a first isolation material around the first die, and after depositing the first isolation material, bonding a second die to the first die. Bonding the second die to the first die includes forming a dielectric-to-dielectric bond. The method further includes removing the first carrier and forming fan-out redistribution layers (RDLs) on an opposing side of the first die as the second die. The fan-out RDLs are electrically connected to the first die and the second die.

A detection pad structure in a semiconductor device may include a lower wiring on a substrate, an upper wiring on the lower wiring, and a first pad pattern on the upper wiring. The upper wiring may be connected to the lower wiring and include metal patterns and via contacts on the metal patterns that are stacked in a plurality of layers. The first pad pattern may be connected to the upper wiring. A semiconductor device may include an actual upper wiring including actual metal patterns and actual via contacts stacked in a plurality of layers. At least one of the metal patterns of each layer in the upper wiring may have a minimum line width and a minimum space of the metal patterns of each layer in the actual upper wiring. Metal patterns and via contacts of each layer in the upper wiring may be regularly and repeatedly arranged.