In certain aspects, a semiconductor device includes a substrate, a first trench isolation in the substrate, a second trench isolation in the substrate and surrounding a portion of the substrate, and a first routing electrode layer extending through the first trench isolation. The portion of the substrate is an active region of a transistor.

Bond pads for semiconductor die assemblies, and associated methods and systems are disclosed. In one embodiment, a semiconductor die assembly includes a first semiconductor die including a first bond pad on a first side of the first semiconductor die. The semiconductor die assembly further includes a second semiconductor die including a second bond pad on a second side of the second semiconductor die. The first bond pad is aligned and bonded to the second bond pad at a bonding interface between the first and second bond pads, and at least one of the first and second bond pads include a first metal and a second metal different than the first metal. Further, the first metal is located at the bonding interface and the second metal has a first thickness corresponding to at least one-fourth of a second thickness of the first or second bond pad.

A semiconductor device including a substrate including a cell array region and a connection region, an electrode structure stacked on the substrate, each of the electrodes including a line portion on the cell array region and a pad portion on the connection region, Vertical patterns penetrating the electrode structure, a cell contact on the connection region and connected to the pad portion, an insulating pillar below the cell contact, with the pad portion interposed therebetween may be provided. The pad portion may include a first portion having a top surface higher than the line portion, and a second portion including a first protruding portion, the first protruding portion extending from the first portion toward the substrate and covering a top surface of the insulating pillar.

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 memory device includes an array of memory cells configured on a die or chip and coupled to sense lines and access lines of the die or chip and a respective sense amplifier configured on the die or chip coupled to each of the sense lines. Each of a plurality of subsets of the sense lines is coupled to a respective local input/output (I/O) line on the die or chip for communication of data on the die or chip and a respective transceiver associated with the respective local I/O line, the respective transceiver configured to enable communication of the data to one or more device off the die or chip.

To help reduce program disturbs in non-selected NAND strings of a non-volatile memory, a sub-block based boosting scheme in introduced. For a three dimensional NAND memory structure, in which the memory cells above a joint region form an upper sub-block and memory cells below the joint region form a lower sub-block, dummy word lines in the joint region act as select gates to allow boosting at the sub-block level when the lower block is being programmed in a reverse order.

A semiconductor package includes: a first wiring structure including a first wiring layer, and a second wiring layer disposed on the first wiring layer, and connected to a first connecting structure placed disposed on the first wiring layer; a first semiconductor chip disposed on the first wiring structure and connected to the first wiring structure through a first connecting pad disposed on a first side of the first semiconductor chip; a second wiring structure disposed on the first semiconductor chip; and an insulating member disposed between the first and second wiring structures, wherein the first wiring structure further includes a first signal pattern that is electrically connected to the first connecting pad, and the first signal pattern redistributes the first connecting pad to the first connecting structure via the insulating member.

A semiconductor package includes a base substrate; an interposer substrate including a semiconductor substrate having a first surface facing the base substrate and a second surface, opposing the first surface, and a passivation layer on at least a portion of the first surface; a plurality of connection bumps between the base substrate and the interposer substrate; an underfill resin in a space between the base substrate and the interposer substrate; and a first semiconductor chip and a second semiconductor chip on the interposer substrate. The interposer substrate has a first region, in which the plurality of connection bumps are included, and a second region and a third region adjacent a periphery of the first region, and the passivation layer is in the second region and includes a first embossed pattern in the second region.

A semiconductor package includes a semiconductor die, a redistribution structure and connective terminals. The redistribution structure is disposed on the semiconductor die and includes a first metallization tier disposed in between a pair of dielectric layers. The first metallization tier includes routing conductive traces electrically connected to the semiconductor die and a shielding plate electrically insulated from the semiconductor die. The connective terminals include dummy connective terminals and active connective terminals. The dummy connective terminals are disposed on the redistribution structure and are electrically connected to the shielding plate. The active connective terminals are disposed on the redistribution structure and are electrically connected to the routing conductive traces. Vertical projections of the dummy connective terminals fall on the shielding plate.

A memory device includes first and second semiconductor layers. The first semiconductor layer includes wordlines and bitlines, an upper substrate, and a memory cell array. The memory cell array includes a memory blocks. The second semiconductor layer includes a lower substrate, and an address decoder. Each memory block includes a core region including a memory cells, a first extension region adjacent to a first side of the core region and including a plurality of wordline contacts, and a second extension region adjacent to a second side of the core region and including an insulating mold structure. The second extension region includes step zones and at least one flat zone. Through-hole vias penetrating the insulating mold structure are in the flat zone. The wordlines and the address decoder are electrically connected with each other by at least the through-hole vias.