The present disclosure attempts to provide a capacitor cell having a large capacitance value per unit area in a semiconductor integrated circuit device using a three-dimensional transistor device. A logic cell includes a three-dimensional transistor device. A capacitor cell includes a three-dimensional transistor device. A length of a portion, of a local interconnect, which protrudes from a three-dimensional diffusion layer in a direction away from a power supply interconnect in the capacitor cell is greater than a length of a portion, of a local interconnect, which protrudes from a three-dimensional diffusion layer in a direction away from a power supply interconnect in the logic cell.

A semiconductor device is provided. The semiconductor device includes a first-direction plurality of wirings extending in a first direction, and a second-direction plurality of wiring extending in a second direction intersecting the first direction. The first-direction plurality of wirings that extend in the first direction includes gate wirings spaced apart from each other in the second direction by a gate pitch, first wirings above the gate wirings spaced apart from each other in the second direction by a first pitch, second wirings above the first wirings spaced apart from each other in the second direction by a second pitch, and third wirings above the second wirings spaced apart from each other in the second direction by a third pitch. A ratio between the gate pitch and the second pitch is 6:5.

An integrated circuit is disclosure. The integrated circuit includes a first pair of power rails, a set of conductive lines arranged in the first layer parallel to the first pair of power rails, a first set of active areas. The integrated circuit further includes a first gate arranged along the second direction, between the first pair of power rails, and crossing the first set of active areas in a layout view, wherein the first gate is configured to be shared by a first transistor of a first type and a second transistor of a second type; and a second gate and a third gate, in which the second gate is configured to be a control terminal of a third transistor, and the third gate is configured to be a control terminal of a fourth transistor which is coupled to the control terminal of the third transistor.

An integrated circuit structure includes: a first plurality of cell rows extending in a first direction, each of which has a first row height and comprises a plurality of first cells disposed therein; and a second plurality of cell rows extending in the first direction, each of which has a second row height different from the first row height and comprises a plurality of second cells disposed therein. The plurality of first cells comprises a first plurality of active regions each of which continuously extends across the plurality of first cells in the first direction, and wherein the plurality of second cells comprises a second plurality of active regions each of which continuously extends across the plurality of second cells in the first direction.

An integrated circuit includes a standard cell. The standard cell may include a plurality of gate lines and a plurality of first wirings. The plurality of first wirings may include a clubfoot structure conductive pattern that includes a first conductive pattern and a second conductive pattern spaced apart from each other. Each of the first conductive pattern and the second conductive pattern may include a first line pattern extending in a first direction and a second line pattern protruding from one end of the first line pattern in a direction perpendicular to the first direction. The plurality of gate lines may be spaced apart from each other by a first pitch in the first direction, and the plurality of second wirings may be spaced apart from each other by a second pitch in the first direction. The first pitch may be greater than the second pitch.

A layout structure of a standard cell using a complementary FET (CFET) is provided. First and second transistors that are three-dimensional transistors lie between first and second power supply lines as viewed in plan, the second transistor being formed above the first transistor in the depth direction. A first local interconnect is connected with the source or drain of the first transistor, and a second local interconnect is connected with the source or drain of the second transistor. The first and second local interconnects extend in the Y direction, overlap each other as viewed in plan, and both overlap the first and second power supply lines as viewed in plan.

An array of poly lines on an active device area of an integrated chip is extended to form a dummy device structure on an adjacent isolation region. The resulting dummy device structure is an array of poly lines having the same line width, line spacing, and pitch as the array of poly lines on the active device area. The poly lines of the dummy device structure are on grid with the poly lines on the active device area. Because the dummy device structure is formed of poly lines that are on grid with the poly lines on the active device area, the dummy device structure may be much closer to the active device area than would otherwise be possible. The resulting proximity of the dummy device structure to the active device area improves anti-dishing performance and reduces empty space on the integrated chip.

A semiconductor device is provided. The semiconductor device includes a first-direction plurality of wirings extending in a first direction, and a second-direction plurality of wiring extending in a second direction intersecting the first direction. The first-direction plurality of wirings that extend in the first direction includes gate wirings spaced apart from each other in the second direction by a gate pitch, first wirings above the gate wirings spaced apart from each other in the second direction by a first pitch, second wirings above the first wirings spaced apart from each other in the second direction by a second pitch, and third wirings above the second wirings spaced apart from each other in the second direction by a third pitch. A ratio between the gate pitch and the second pitch is 6:5.

A semiconductor structure includes a first cell and a second cell. The second cell vertically abuts the first cell. Each first cell has a plurality of first active regions. Each first active region has a first vertical height. Each second cell has a plurality of second active regions. Each second active region has a second vertical height. The second vertical height is different from the first vertical height.

The present disclosure attempts to provide a capacitor cell having a large capacitance value per unit area in a semiconductor integrated circuit device using a three-dimensional transistor device. A logic cell includes a three-dimensional transistor device. A capacitor cell includes a three-dimensional transistor device. A length of a portion, of a local interconnect, which protrudes from a three-dimensional diffusion layer in a direction away from a power supply interconnect in the capacitor cell is greater than a length of a portion, of a local interconnect, which protrudes from a three-dimensional diffusion layer in a direction away from a power supply interconnect in the logic cell.