A semiconductor device includes a plurality of standard cells. The plurality of standard cells include a first group of standard cells arranged in a first row extending in a row direction and a second group of standard cells arranged in a second row extending in the row direction. The first group of standard cells and the second group of standard cells are arranged in a column direction. A cell height of the first group of standard cells in the column direction is different from a cell height of the second group of standard cells in the column direction.

An integrated circuit device includes a first device and a second device. The first device is disposed within a first circuit region, the first device including a plurality of first semiconductor strips extending longitudinally in a first direction. Adjacent ones of the plurality of first semiconductor strips are spaced apart from each other in a second direction, which is generally perpendicular to the first direction. The second device is disposed within a second circuit region, the second circuit region being adjacent to the first circuit region in the first direction. The second device includes a second semiconductor strip extending longitudinally in the first direction. A projection of a longitudinal axis of the second semiconductor strip along the first direction lies in a space separating the adjacent ones of the plurality of first semiconductor strips.

An integrated circuit includes a set of power rails on a back-side of a substrate, a first flip-flop, a second flip-flop and a third flip-flop. The set of power rails extend in a first direction. The first flip-flop includes a first set of conductive structures extending in the first direction. The second flip-flop abuts the first flip-flop at a first boundary, and includes a second set of conductive structures extending in the first direction. The third flip-flop abuts the second flip-flop at a second boundary, and includes a third set of conductive structures extending in the first direction. The first, second and third flip-flop are on a first metal layer and are on a front-side of the substrate opposite from the back-side. The second set of conductive structures are offset from the first boundary and the second boundary in a second direction.

An integrated circuit includes a first cell arranged in a first row extending in a first horizontal direction, a second cell arranged in a second row adjacent to the first row, and a third cell continuously arranged in the first row and the second row. The first cell and the second cell comprise respective portions of a first power line extending in the first horizontal direction, and the third cell includes a second power line electrically connected to the first power line and extending in the first horizontal direction in the first row.

Disclosed herein are related to an integrated circuit having a dual power structure with an efficient layout and a method of forming the integrated circuit. In one aspect, the integrated circuit includes a substrate, a first layer facing the substrate, and a second layer facing the first layer. In one aspect, the first layer includes a set of first metal rails, where each of the set of first metal rails may be separated from its adjacent one of the set of first metal rails according to a uniform pitch along a direction. In one aspect, the second layer includes a set of second metal rails, where the set of second metal rails may include two adjacent second metal rails separated according to a first pitch along the direction and additional two adjacent second metal rails separated according to a second pitch along the direction.

A semiconductor device includes a plurality of standard cells. The plurality of standard cells include a first group of standard cells arranged in a first row extending in a row direction and a second group of standard cells arranged in a second row extending in the row direction. The first group of standard cells and the second group of standard cells are arranged in a column direction. A cell height of the first group of standard cells in the column direction is different from a cell height of the second group of standard cells in the column direction.

A semiconductor device includes a plurality of standard cells. The plurality of standard cells include a first group of standard cells arranged in a first row extending in a row direction and a second group of standard cells arranged in a second row extending in the row direction. The first group of standard cells and the second group of standard cells are arranged in a column direction. A cell height of the first group of standard cells in the column direction is different from a cell height of the second group of standard cells in the column direction.

An integrated circuit includes a first standard cell including a first first-type transistor, a first second-type transistor, a third second-type transistor, and a third first-type transistor, a second standard cell including a second first-type transistor, a second second-type transistor, a fourth second-type transistor and a fourth first-type transistor, a plurality of wiring layers which are disposed on the first and second standard cells and includes a first wiring layer, a second wiring layer, and a third wiring layer sequentially stacked. A source contact of the first first-type transistor and a source contact of the second first-type transistor are electrically connected through a first power rail of the plurality of wiring layers, and a source contact of the third first-type transistor and a source contact of the fourth first-type transistor are electrically connected through a second power rail of the plurality of wiring layers.

The semiconductor structure includes a semiconductor substrate having active regions; field-effect devices disposed on the semiconductor substrate, the field-effect devices including gate stacks with elongated shape oriented in a first direction; a first metal layer disposed over the gate stacks, the first metal layer including first metal lines oriented in a second direction being orthogonal to the first direction; a second metal layer disposed over the first metal layer, the second metal layer including second metal lines oriented in the first direction; and a third metal layer disposed over the second metal layer, the third metal layer including third metal lines oriented in the second direction. The first, second, and third metal lines have a first thickness T.sub.1, a second thickness T.sub.2, and t a third thickness T.sub.3, respectively. The second thickness is greater than the first thickness and the third thickness.

A MOS device of an IC includes pMOS and nMOS transistors. The MOS device further includes a first M.sub.x layer interconnect extending in a first direction and coupling the pMOS and nMOS transistor drains together, and a second M.sub.x layer interconnect extending in the first direction and coupling the pMOS and nMOS transistor drains together. The first and second M.sub.x layer interconnects are parallel. The MOS device further includes a first M.sub.x+1 layer interconnect extending in a second direction orthogonal to the first direction. The first M.sub.x+1 layer interconnect is coupled to the first M.sub.x layer interconnect and the second M.sub.x layer interconnect. The MOS device further includes a second M.sub.x+1 layer interconnect extending in the second direction. The second M.sub.x+1 layer interconnect is coupled to the first M.sub.x layer interconnect and the second M.sub.x layer interconnect. The second M.sub.x+1 layer interconnect is parallel to the first M.sub.x+1 layer interconnect.