A memory device is provided. The memory device includes a plurality of memory cells. Each memory cell includes a latch circuit formed of N-type field effect transistors (NFETs) and P-type field effect transistors (PFETs). The NFETs are formed at a surface of a semiconductor substrate, and the PFETs are disposed at an elevated level over the NFETs.

A semiconductor device is provided. The semiconductor device includes: an active pattern provided on a substrate and extending in a first direction; a pair of source/drain patterns provided on the active pattern and spaced apart from each other in the first direction; a plurality of channel layers vertically stacked and spaced apart from each other on the active pattern between the pair of source/drain patterns; a gate electrode extending in a second direction between the pair of source/drain patterns, the gate electrode being provided on the active pattern and surrounding the plurality of channel layers, and the second direction intersecting the first direction; and a gate spacer provided between the plurality of channel layers, and between the gate electrode and the pair of source/drain patterns. The gate spacer includes a plurality of first spacer patterns and a plurality of second spacer patterns that are alternately stacked on sidewalls of the pair of source/drain patterns.

A semiconductor device includes: a semiconductor layer having a first main surface in which a region for a first element is formed; and an element isolation portion configured to partition a first active region in the region for the first element. The first element includes: a first gate electrode, a first gate insulating film, a first-conduction-type first source region and a first-conduction-type first drain region, a first-conduction-type first source extension portion and a first-conduction-type first drain extension portion, and a second-conduction-type second source extension portion and a second-conduction-type second drain extension portion.

A semiconductor device includes: a semiconductor layer having a first main surface in which a region for a first element is formed; and an element isolation portion configured to partition a first active region in the region for the first element. The first element includes: a first gate electrode, a first gate insulating film, a first-conduction-type first source region and a first-conduction-type first drain region, a first-conduction-type first source extension portion and a first-conduction-type first drain extension portion, and a second-conduction-type second source extension portion and a second-conduction-type second drain extension portion.

An integrated circuit device having insulated gate field effect transistors (IGFETs) having a plurality of horizontally disposed channels that can be vertically aligned above a substrate with each channel being surrounded by a gate structure has been disclosed. The integrated circuit device may include a temperature sensor circuit and core circuitry. The temperature senor circuit may include at least one portion formed in a region other than the region that the IGFETs are formed as well as at least another portion formed in the region that the IGFETs having a plurality of horizontally disposed channels that can be vertically aligned above a substrate with each channel being surrounded by a gate structure are formed. By forming a portion of the temperature sensor circuit in regions below the IGFETs, an older process technology may be used and device size may be decreased and cost may be reduced.

An integrated circuit device having insulated gate field effect transistors (IGFETs) having a plurality of horizontally disposed channels that can be vertically aligned above a substrate with each channel being surrounded by a gate structure has been disclosed. The integrated circuit device may include a temperature sensor circuit and core circuitry. The temperature senor circuit may include at least one portion formed in a region other than the region that the IGFETs are formed as well as at least another portion formed in the region that the IGFETs having a plurality of horizontally disposed channels that can be vertically aligned above a substrate with each channel being surrounded by a gate structure are formed. By forming a portion of the temperature sensor circuit in regions below the IGFETs, an older process technology may be used and device size may be decreased and cost may be reduced.

A multi-stack semiconductor device includes: a lower-stack transistor structure including a lower active region and a lower gate structure, the lower active region including a lower channel structure, and the lower gate structure surrounding the lower channel structure; an upper-stack transistor structure vertically stacked above the lower-stack transistor structure, and including an upper active region and an upper gate structure, the upper active region including an upper channel structure, and the upper gate structure surrounding the upper channel structure; and at least one gate contact plug contacting a top surface of the lower gate structure, wherein the lower gate structure and the upper gate structure have a substantially same size in a plan view, and wherein the lower gate structure is not entirely overlapped by the upper gate structure in a vertical direction.

Cross-coupled structures are provided. Cross-coupled structures may include a first transistor, a second transistor, a third transistor, and a fourth transistor. The first transistor, the second transistor, and the fourth transistor may be spaced apart from each other in a first direction, and the third transistor and the second transistor may be stacked in a second direction that is perpendicular to the first direction. The third transistor and the second transistor may include a common gate structure, a first portion of the common gate structure may be a gate structure of the second transistor, and a second portion of the common gate structure may be a gate structure of the third transistor.

An integrated circuit includes a set of transistors including a set of active regions, a set of power rails, a first set of conductors and a first conductor. The set of active regions extends in a first direction, and is on a first level. The set of power rails extends in the first direction and is on a second level. The set of power rails has a first width. The first set of conductors extends in the first direction, is on the second level, and overlaps the set of active regions. The first set of conductors has a second width. The first conductor extends in the first direction, is on the second level and is between the first set of conductors. The first conductor has the first width, electrically couples a first transistor of the set of transistors to a second transistor of the set of transistors.

A microelectronic device comprises a base structure, a memory array overlying the base structure, and a conductive pad tier overlying the memory array. The base structure comprises a logic region including logic devices. The memory array comprises vertically extending strings of memory cells within a horizontal area of the logic region of the base structure. The conductive pad tier comprises first conductive pads substantially outside of the horizontal area of the logic region of the base structure, and second conductive pads horizontally neighboring the first conductive pads and within the horizontal area of the logic region of the base structure. Memory devices and electronic systems are also described.