A method for producing a 3D semiconductor device including: providing a first level including a first single crystal layer; forming a first metal layer on top of first level; forming a second metal layer on top of the first metal layer; forming at least one second level above the second metal layer; performing a first lithography step on the second level; forming a third level on top of the second level; performing a second lithography step on the third level; perform processing steps to form first memory cells within the second level and second memory cells within the third level, where first memory cells include at least one second transistor, and the second memory cells include at least one third transistor; and deposit a gate electrode for the second and the third transistors simultaneously.

A 3D semiconductor device including: a first single crystal layer including a plurality of first transistors and a first metal layer, where a second metal layer is disposed atop the first metal layer; a plurality of logic gates including the first metal layer and first transistors; a plurality of second transistors disposed atop the second metal layer; a plurality of third transistors disposed atop the second transistors; a top metal layer disposed atop the third transistors; and a memory array including word-lines, where the memory array includes at least four memory mini arrays, where each of the mini arrays includes at least two rows by two columns of memory cells, where each memory cell includes one of the second transistors or one of the third transistors, and where one of the second transistors is self-aligned to one of the third transistors, being processed following a same lithography step.

A 3D semiconductor device, the device including: a first level including a first single crystal layer and first single crystal transistors; a first metal layer; a second metal layer disposed atop the first metal layer; second transistors disposed atop of the second metal layer; third transistors disposed atop of the second transistors, where at least one of the third transistors includes at least one replacement gate, being processed to replace a non-metal gate material with a metal based gate, and where a distance from at least one of the third transistors to at least one of the first transistors is less than 2 microns.

A 3D semiconductor device, the device comprising: a first level comprising a first single crystal layer, said first level comprising first transistors, wherein each of said first transistors comprises a single crystal channel; first metal layers interconnecting at least said first transistors; a second metal layer overlaying said first metal layers; and a second level comprising a second single crystal layer, said second level comprising second transistors, wherein said second level overlays said first level, wherein at least one of said first transistors controls power delivery for at least one of said second transistor, wherein said second level is directly bonded to said first level, and wherein said bonded comprises direct oxide to oxide bonds.

A 3D semiconductor device, the device including: a first level including a first single crystal layer, the first level including first transistors, where the first transistors each include a single crystal channel; first metal layers interconnecting at least the first transistors; and a second level including a second single crystal layer, the second level including second transistors, where the second level overlays the first level, where the second level is bonded to the first level, where the bonded includes oxide to oxide bonds, where the second transistors each include at least two side-gates, and where through the first metal layers power is provided to at least one of the second transistors.

A 3D semiconductor device including: a first level including a first single-crystal layer, a plurality of first transistors, a first metal layer (includes interconnection of first transistors), and a second metal layer, where first transistors' interconnection includes forming logic gates; a plurality of second transistors disposed atop, at least in part, of logic gates; a plurality of third transistors disposed atop, at least in part, of the second transistors; a third metal layer disposed above, at least in part, the third transistors; a global grid to distribute power and overlaying, at least in part, the third metal layer; a local grid to distribute power to the logic gates, the local grid is disposed below, at least in part, the second transistors, where the second transistors are aligned to the first transistors with less than 40 nm misalignment, where at least one of the second transistors includes a metal gate.

A 3D semiconductor device including: a first level including a single crystal layer and plurality of first transistors; a first metal layer including interconnects between first transistors, where the interconnects between the first transistors includes forming logic gates; a second metal layer atop at least a portion of the first metal layer, second transistors which are vertically oriented, are also atop a portion of the second metal layer; where at least eight of the first transistors are connected in series forming at least a portion of a NAND logic structure, where at least one of the second transistors is at least partially directly atop of the NAND logic structure; and a third metal layer atop at least a portion of the second transistors, where the second metal layer is aligned to the first metal layer with a less than 150 nm misalignment.

A method for producing a 3D memory device, the method including: providing a first level including a first single crystal layer; forming first alignment marks and control circuits in and on the first level, where the control circuits include first single crystal transistors, where the control circuits include at least two metal layers; forming at least one second level disposed on top of the first level; performing a first etch step within the second level; forming at least one third level disposed on top of the at least one second level; performing a second etch step within the third level; and performing additional processing steps to form a plurality of first memory cells within the second level and a plurality of second memory cells within the third level, where the first memory cells include second transistors, and where the second memory cells include third transistors.

A method for processing a 3D integrated circuit, the method including: providing a first level including a first wafer, the first wafer including a first crystalline substrate, a plurality of first transistors, and first copper interconnecting layers, where the first copper interconnecting layers at least interconnect the plurality of first transistors; processing a second level including a second wafer, the second wafer including a second crystalline substrate, a plurality of second transistors, and second copper interconnecting layers, where the second copper interconnecting layers at least interconnect the plurality of second transistors; then forming a bonded structure by bonding the second level to the first level, where the bonding includes metal to metal bonding, where the bonding includes oxide to oxide bonding; and then performing a lithography process to define dice lines for the bonded structure; and etching the dice lines.

A 3D semiconductor device, the device including: a first single crystal layer including a plurality of first transistors; at least one first metal layer disposed above the plurality of first transistors; a second metal layer disposed above the at least one first metal layer; a plurality of second transistors disposed atop the second metal layer; a plurality of third transistors disposed atop the plurality of second transistors; a plurality of fourth transistors disposed atop the plurality of third transistors; a third metal layer disposed above the plurality of fourth transistors; a fourth metal layer disposed above the third metal layer; and a plurality of connecting metal paths from the fourth metal layer or the third metal layer to the second metal layer, where the device includes an array of memory cells, and where at least one of the memory cells includes one of the plurality of third transistors.