Patent ID: 8785979
Filing Date: 2014-07-22
Classification: G06F,H01L

Abstract:
1. An integrated circuit, comprising: a gate electrode level region having at least six adjacently positioned gate electrode feature layout channels, each gate electrode feature layout channel extending lengthwise in a first direction and widthwise in a second direction perpendicular to the first direction, each gate electrode feature layout channel having a substantially equal length in the first direction, wherein each of the at least six adjacently positioned gate electrode feature layout channels includes at least one gate level feature, each gate level feature having a first end located adjacent to a first line end spacing and a second end located adjacent to a second line end spacing, wherein each gate level feature forms an electrically conductive path extending between its first and second ends, wherein the gate electrode level region includes a first gate level feature that forms a gate electrode of a first transistor of a first transistor type and a gate electrode of a first transistor of a second transistor type, wherein the gate electrode level region includes a second gate level feature that forms a gate electrode of a second transistor of the first transistor type, wherein any transistor having its gate electrode formed by the second gate level feature is of the first transistor type, wherein the gate electrode level region includes a third gate level feature that forms a gate electrode of a second transistor of the second transistor type, wherein any transistor having its gate electrode formed by the third gate level feature is of the second transistor type, wherein the gate electrode level region includes a fourth gate level feature that forms a gate electrode of a third transistor of the first transistor type, wherein any transistor having its gate electrode formed by the fourth gate level feature is of the first transistor type, wherein the gate electrode level region includes a fifth gate level feature that forms a gate electrode of a third transistor of the second transistor type, wherein any transistor having its gate electrode formed by the fifth gate level feature is of the second transistor type, wherein the gate electrode level region includes a sixth gate level feature that forms a gate electrode of a fourth transistor of the first transistor type and a gate electrode of a fourth transistor of the second transistor type, wherein the gate electrode of the second transistor of the first transistor type is substantially co-aligned with the gate electrode of the second transistor of the second transistor type along a first common line of extent in the first direction, and wherein the second gate level feature is separated from the third gate level feature by a first line end spacing as measured in the first direction, wherein the gate electrode of the third transistor of the first transistor type is substantially co-aligned with the gate electrode of the third transistor of the second transistor type along a second common line of extent in the first direction, and wherein the fourth gate level feature is separated from the fifth gate level feature by a second line end spacing as measured in the first direction, wherein the gate electrodes of the second and third transistors of the first transistor type are positioned between the gate electrodes of the first and fourth transistors of the first transistor type in the second direction, and wherein the gate electrodes of the second and third transistors of the second transistor type are positioned between the gate electrodes of the first and fourth transistors of the second transistor type in the second direction; a first gate contact defined to physically contact the first gate level feature; a second gate contact defined to physically contact the second gate level feature; a third gate contact defined to physically contact the third gate level feature; a fourth gate contact defined to physically contact the fourth gate level feature; a fifth gate contact defined to physically contact the fifth gate level feature; a sixth gate contact defined to physically contact the sixth gate level feature, wherein the first, second, third, and fourth transistors of the first transistor type are collectively separated from the first, second, third, and fourth transistors of the second transistor type by an inner portion of the gate electrode level region, wherein the gate electrode level region includes a first outer portion that extends in the first direction away from the first, second, third, and fourth transistors of the first transistor type collectively and away from the inner portion of the gate electrode level region, wherein the gate electrode level region includes a second outer portion that extends in the first direction away from the first, second, third, and fourth transistors of the second transistor type collectively and away from the inner portion of the gate electrode level region, wherein two of the second, third, fourth, and fifth gate contacts are respectively located over the inner portion of the gate electrode level region, and wherein two of the second, third, fourth, and fifth gate contacts are respectively located over either the first outer portion of the gate electrode level region or the second outer portion of the gate electrode level region; and a plurality of interconnect level regions formed above the gate electrode level region, wherein the second and fifth gate level features are electrically connected to each other through a first electrical connection that extends in part through one interconnect level region of the plurality of interconnect level regions, and wherein the third and fourth gate level features are electrically connected to each other through a second electrical connection that extends in part through the one interconnect level region of the plurality of interconnect level regions.