A composite integrated circuit (IC) device structure comprising a host chip and a chiplet. The host chip comprises a first device layer and a first metallization layer. The chiplet comprises a second device layer and a second metallization layer that is interconnected to transistors of the second device layer. A top metallization layer comprising a plurality of first level interconnect (FLI) interfaces is over the chiplet and host chip. The chiplet is embedded between a first region of the first device layer and the top metallization layer. The first region of the first device layer is interconnected to the top metallization layer by one or more conductive vias extending through the second device layer or adjacent to an edge sidewall of the chiplet.

A semiconductor stack and a method for manufacturing the same are disclosed. The semiconductor stack includes a lower chip, an upper chip disposed over the lower chip, an upper lateral-side passivation layer surrounding side surfaces of the upper chip, and a plurality of bonding pads and a bonding passivation layer disposed between the upper chip and the lower chip.

A semiconductor package includes a first semiconductor chip including a first body portion, a first bonding layer including a first bonding insulating layer, a first redistribution portion including first redistribution layers, a first wiring insulating layer disposed between the first redistribution layers, and a second bonding layer including a second bonding insulating layer, a second redistribution portion including second redistribution layers, a second wiring insulating layer disposed between the second redistribution layers, and a second semiconductor chip disposed on the second redistribution portion. A lower surface of the first bonding insulating layer is bonded to an upper surface of the second bonding insulating layer, an upper surface of the first bonding insulating layer contacts the first body portion, a lower surface of the second bonding insulating layer contacts the second wiring insulating layer, and the first redistribution portion width is greater than the first semiconductor chip width.

Apparatus and methods are disclosed. In one example, a semiconductor package includes a first die that has a first surface and a first electrical lead at or near the first surface. The semiconductor package also includes a substrate that has a second surface and is coupled to the first die at a first interface. The substrate also includes a first electrode at or near the second surface and at least a first portion of an integrated passive device that is coupled to the first electrode. The first electrode is aligned with and coupled to the first electrical lead across the first interface.

A photoelectric conversion device including a plurality of substrates in a stacked state, the plurality of substrates including a first substrate and a second substrate electrically connected to each other, the photoelectric conversion device comprising: a memory cell unit including row-selection lines that are to be driven upon selection of a row of a memory cell array and column-selection lines that are to be driven upon selection of a column of the memory cell array; and a memory peripheral circuit unit that includes row-selection line connection portions and column-selection line connection portions so as to drive the row-selection lines and to drive the column-selection lines, wherein a first portion that is at least a part of the memory peripheral circuit unit is formed on the first substrate and the memory cell unit is formed on the second substrate.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a first microelectronic component having a first direct bonding region, wherein the first direct bonding region includes first metal contacts and a first dielectric material between adjacent ones of the first metal contacts; a second microelectronic component having a second direct bonding region and coupled to the first microelectronic component by the first and second direct bonding regions, wherein the second direct bonding region includes second metal contacts and a second dielectric material between adjacent ones of the second metal contacts, and wherein individual first metal contacts in the first direct bonding region are coupled to respective individual second metal contacts in the second direct bonding region; and a void between an individual first metal contact and a respective individual second metal contact.

A memory system includes a memory stack including a number of memory dies interconnected via copper bonding, a logic die coupled to the memory stack via a copper bonding. The memory system further includes a buffer die extended to provide the copper bonding between the logic die and the memory stack and a silicon carrier layer bonded to the memory stack and the logic die.

An apparatus including a circuit structure including a device stratum; one or more electrically conductive interconnect levels on a first side of the device stratum and coupled to ones of the transistor devices; and a substrate including an electrically conductive through silicon via coupled to the one or more electrically conductive interconnect levels so that the one or more interconnect levels are between the through silicon via and the device stratum. A method including forming a plurality of transistor devices on a substrate, the plurality of transistor devices defining a device stratum; forming one or more interconnect levels on a first side of the device stratum; removing a portion of the substrate; and coupling a through silicon via to the one or more interconnect levels such that the one or more interconnect levels is disposed between the device stratum and the through silicon via.

A semiconductor device and a method of forming the same are provided. The semiconductor device includes a first logic die including a first through via, an image sensor die hybrid bonded to the first logic die, and a second logic die bonded to the first logic die. A front side of the first logic die facing a front side of the image sensor die. A front side of the second logic die facing a backside of the first logic die. The second logic die comprising a first conductive pad electrically coupled to the first through via.

A semiconductor package includes a substrate, a first semiconductor chip disposed on the substrate, and a second semiconductor chip disposed on a top surface of the first semiconductor chip. The first semiconductor chip includes a conductive pattern disposed on the top surface of the first semiconductor chip and a first protective layer covering the top surface of the first semiconductor chip and at least partially surrounds the conductive pattern. The second semiconductor chip includes a first pad that contacts a first through electrode on a bottom surface of the second semiconductor chip. A second protective layer surrounds the first pad and covers the bottom surface of the second semiconductor chip. A third protection layer fills a first recess defined in the second protective layer to face the inside of the second protective layer. The first protective layer and the third protective layer contact each other.