A 3D semiconductor device, the device including: a first level including a plurality of first single crystal transistors; contact plugs; a first metal layer, where the contact plugs are connected to the plurality of first single crystal transistors and the first metal layer, where the first metal layer interconnect the first single crystal transistors forming memory control circuits; a second level overlaying the first level, the second level including a plurality of second transistors; a third level overlaying the second level, the third level including a plurality of third transistors; a second metal layer; a third metal layer, where the second metal layer overlays the third level, where the third metal layer overlays the second metal layer, where the second level includes a plurality of first memory cells, where the third level includes a plurality of second memory cells, where the memory control circuits include control sub-circuits to remap a degraded memory block to an alternative memory space within the device.

A 3D semiconductor device, the device including: a first level including a plurality of first single crystal transistors; contact plugs; a first metal layer, where the contact plugs are connected to the plurality of first single crystal transistors and the first metal layer, where the first metal layer interconnect the first single crystal transistors forming memory control circuits; a second level overlaying the first level, the second level including a plurality of second transistors; a third level overlaying the second level, the third level including a plurality of third transistors; a second metal layer; a third metal layer, where the second metal layer overlays the third level, where the third metal layer overlays the second metal layer, where the second level includes a plurality of first memory cells, where the third level includes a plurality of second memory cells, where the memory control circuits include control sub-circuits to remap a degraded memory block to an alternative memory space within the device.

In an anti-fuse memory includes a rectifier element of a semiconductor junction structure in which a voltage applied from a memory gate electrode to a word line is applied as a reverse bias in accordance with voltage values of the memory gate electrode and the word line, and does not use a conventional control circuit. Hence, the rectifier element blocks application of a voltage from the memory gate electrode to the word line. Therefore a conventional switch transistor that selectively applies a voltage to a memory capacitor and a conventional switch control circuit allowing the switch transistor to turn on or off are not necessary. Miniaturization of the anti-fuse memory and a semiconductor memory device are achieved correspondingly.

In an anti-fuse memory includes a rectifier element of a semiconductor junction structure in which a voltage applied from a memory gate electrode to a word line is applied as a reverse bias in accordance with voltage values of the memory gate electrode and the word line, and does not use a conventional control circuit. Hence, the rectifier element blocks application of a voltage from the memory gate electrode to the word line. Therefore a conventional switch transistor that selectively applies a voltage to a memory capacitor and a conventional switch control circuit allowing the switch transistor to turn on or off are not necessary. Miniaturization of the anti-fuse memory and a semiconductor memory device are achieved correspondingly.

A 3D semiconductor device including: a first level comprising first single crystal transistors, a first metal layer, and a plurality of latches; a second level comprising a plurality of second transistors, wherein said second level comprises first memory cells, and wherein said first memory cells each comprise at least one of said plurality of second transistors; a third level comprising a plurality of third transistors, wherein said third level comprises second memory cells, wherein said second memory cells each comprise at least one of said plurality of third transistors, wherein said second level overlays said first level, and wherein said third level overlays said second level; a second metal layer overlaying said third level, said second metal layer comprising a plurality of bit-lines, wherein said plurality of second transistors are aligned to said first single crystal transistors with less than 100 nm alignment error, wherein said plurality of second transistors are junction-less transistors, and wherein each of said plurality of bit lines is connected to at least one of said plurality of latches.

A 3D semiconductor device including: a first level comprising first single crystal transistors, a first metal layer, and a plurality of latches; a second level comprising a plurality of second transistors, wherein said second level comprises first memory cells, and wherein said first memory cells each comprise at least one of said plurality of second transistors; a third level comprising a plurality of third transistors, wherein said third level comprises second memory cells, wherein said second memory cells each comprise at least one of said plurality of third transistors, wherein said second level overlays said first level, and wherein said third level overlays said second level; a second metal layer overlaying said third level, said second metal layer comprising a plurality of bit-lines, wherein said plurality of second transistors are aligned to said first single crystal transistors with less than 100 nm alignment error, wherein said plurality of second transistors are junction-less transistors, and wherein each of said plurality of bit lines is connected to at least one of said plurality of latches.

A 3D semiconductor device including: a first level including first single crystal transistors and a first metal layer; a second level including a plurality of second transistors; where the second level includes memory cells including the plurality of second transistors; a third level including a plurality of third transistors, where the second level overlays the first level, and where the third level overlays the second level; a second metal layer overlaying the third level; and vertically oriented conductive plugs, the vertically oriented conductive plugs connect from the second transistors to the first metal layer, where the second transistors are aligned to the first transistors with less than 100 nm alignment error, where the second transistors are junction-less transistors, and where one end of at least one of the vertically oriented conductive plugs functions also as a contact to a portion of each of the plurality of second transistors.

A 3D semiconductor device including: a first level including first single crystal transistors and a first metal layer; a second level including a plurality of second transistors; where the second level includes memory cells including the plurality of second transistors; a third level including a plurality of third transistors, where the second level overlays the first level, and where the third level overlays the second level; a second metal layer overlaying the third level; and vertically oriented conductive plugs, the vertically oriented conductive plugs connect from the second transistors to the first metal layer, where the second transistors are aligned to the first transistors with less than 100 nm alignment error, where the second transistors are junction-less transistors, and where one end of at least one of the vertically oriented conductive plugs functions also as a contact to a portion of each of the plurality of second transistors.

A 3D semiconductor device including: a first level with first single crystal transistors; contact plugs; a first metal layer, where a portion of the contact plugs provide connections from the first transistors to the first metal, where connections formed logic circuits; a second level with second transistors; a third level with third transistors, where the second level overlays the first level, and where the third level overlays the second level; a second metal layer overlaying the third level, second level includes first memory cells where each of the memory cells include at least one of the second transistors; and vertically oriented conductive plugs, where the second transistors are aligned to the first transistors with less than 100 nm alignment error, where the second transistors are junction-less transistors, where one end of each of the vertically oriented conductive plugs are connected to the second metal layer, where at least one of the vertically oriented conductive plugs is disposed directly on one of the contact plugs.

A 3D semiconductor device, the device including: a first level including a plurality of first single crystal transistors; contact plugs; a first metal layer, where a portion of the contact plugs provide connections from the plurality of first single crystal transistors to the first metal layer, and where connections include forming memory control circuits; a second level including a plurality of second transistors; a third level including a plurality of third transistors, where the second level overlays the first level, the third level overlays the second level; a second metal layer overlaying the third level; and a third metal layer overlaying the second metal layer, where second transistors are aligned to first transistors with less than 40 nm alignment error, where the second level includes first memory cells, where the third level includes second memory cells, and where the memory control circuits are designed to adjust a memory write voltage according to the device specific process parameters.