Provided is a semiconductor integrated circuit device including a nanowire field effect transistor (FET) and having a layout configuration effective for making manufacturing the device easy. In a standard cell including nanowire FETs connected in series through an intermediate node used only for mutual connection, the nanowire FETs include first, second, and third pads, Na nanowires extending in an X direction between the first and second pads to connect the first and second pads together, and Nb nanowires extending in the X direction between the second and third pads to connect the second and third pads together.

Provided is a semiconductor integrated circuit device including a nanowire field effect transistor (FET) and having a layout configuration effective for making manufacturing the device easy. A standard cell having no logical function is disposed adjacent to a standard cell having a logical function. The standard cell includes nanowire FETs having nanowires and pads. The standard cell further includes dummy pads, which have no contribution to a logical function of a circuit.

A semiconductor integrated circuit device including standard cells including fin transistors includes, at a cell row end, a cell-row-terminating cell that does not contribute to a logical function of a circuit block. The cell-row-terminating cell includes a plurality of fins extending in an X direction. Ends of the plurality of fins on the inner side of the circuit block are near a gate structure placed at a cell end and do not overlap with the gate structure in a plan view, and ends of the plurality of fins on an outer side of the circuit block overlap with any one of a gate structure in a plan view.

A semiconductor device includes a first standard cell disposed on a substrate in a first row and having a first cell height; a second standard cell disposed on the substrate in a second row, adjacent to the first row, second standard cell having a second cell height, different from the first cell height; and a power line extending in a first direction along a boundary between the first standard cell and the second standard cell.

Provided is a layout configuration that helps facilitate manufacturing a semiconductor integrated circuit device including a nanowire FET. A nanowire FET in a standard cell includes Na (where Na is an integer of 2 or more) nanowires extending in an X direction, and a nanowire FET in a standard cell includes Nb (where Nb is an integer of 1 or more and less than Na) nanowires extending in the X direction. At least one of both ends, in the Y direction, of a pad of the nanowire FET is aligned in the X direction with an associated one of both ends, in the Y direction, of a pad of the nanowire FET.

An integrated circuit includes a first gate electrode track and a second gate electrode track. The first gate electrode track includes a first gate electrode feature that forms an n-channel transistor as it crosses an n-diffusion region. The first gate electrode track does not cross a p-diffusion region. The second gate electrode track includes a second gate electrode feature that forms a p-channel transistor as it crosses a p-diffusion region. The second gate electrode track does not cross an n-diffusion region. The integrated circuit also includes a linear shaped conductor that crosses both the first and second gate electrode features in a reference direction perpendicular to the first and second gate electrode tracks. The linear shaped conductor provides electrical connection between the first and second gate electrode features.

An integrated circuit includes a first gate electrode track and a second gate electrode track. The first gate electrode track includes a first gate electrode feature that forms an n-channel transistor as it crosses an n-diffusion region. The first gate electrode track does not cross a p-diffusion region. The second gate electrode track includes a second gate electrode feature that forms a p-channel transistor as it crosses a p-diffusion region. The second gate electrode track does not cross an n-diffusion region. The integrated circuit also includes a linear shaped conductor that crosses both the first and second gate electrode features in a reference direction perpendicular to the first and second gate electrode tracks. The linear shaped conductor provides electrical connection between the first and second gate electrode features.

An integrated circuit includes a first gate electrode track and a second gate electrode track. The first gate electrode track includes a first gate electrode feature that forms an n-channel transistor as it crosses an n-diffusion region. The first gate electrode track does not cross a p-diffusion region. The second gate electrode track includes a second gate electrode feature that forms a p-channel transistor as it crosses a p-diffusion region. The second gate electrode track does not cross an n-diffusion region. The integrated circuit also includes a linear shaped conductor that crosses both the first and second gate electrode features in a reference direction perpendicular to the first and second gate electrode tracks. The linear shaped conductor provides electrical connection between the first and second gate electrode features.

An integrated circuit includes a first gate electrode track and a second gate electrode track. The first gate electrode track includes a first gate electrode feature that forms an n-channel transistor as it crosses an n-diffusion region. The first gate electrode track does not cross a p-diffusion region. The second gate electrode track includes a second gate electrode feature that forms a p-channel transistor as it crosses a p-diffusion region. The second gate electrode track does not cross an n-diffusion region. The integrated circuit also includes a linear shaped conductor that crosses both the first and second gate electrode features in a reference direction perpendicular to the first and second gate electrode tracks. The linear shaped conductor provides electrical connection between the first and second gate electrode features.

An integrated circuit includes a first gate electrode track and a second gate electrode track. The first gate electrode track includes a first gate electrode feature that forms an n-channel transistor as it crosses an n-diffusion region. The first gate electrode track does not cross a p-diffusion region. The second gate electrode track includes a second gate electrode feature that forms a p-channel transistor as it crosses a p-diffusion region. The second gate electrode track does not cross an n-diffusion region. The integrated circuit also includes a linear shaped conductor that crosses both the first and second gate electrode features in a reference direction perpendicular to the first and second gate electrode tracks. The linear shaped conductor provides electrical connection between the first and second gate electrode features.