최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0837123 (2013-03-15) |
등록번호 | US-8946781 (2015-02-03) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 6 인용 특허 : 514 |
An integrated circuit includes four parallel positioned linear-shaped structures each including a gate electrode portion and an extension portion. Gate electrode portions of two of the four linear-shaped structures respectively form gate electrodes of first and second transistors of a first transist
An integrated circuit includes four parallel positioned linear-shaped structures each including a gate electrode portion and an extension portion. Gate electrode portions of two of the four linear-shaped structures respectively form gate electrodes of first and second transistors of a first transistor type. Gate electrode portions of two of the four linear-shaped structures respectively form a gate electrodes of first and second transistors of a second transistor type. Four contacting structures are respectively connected to the extension portions of the four linear-shaped structures such that each extension portion has a respective contact-to-end distance. At least two of the contact-to-end distances are different. A fifth linear-shaped structure forms gate electrodes of transistors respectively positioned next to the first transistors of the first and second transistor types. A sixth linear-shaped structure forms gate electrodes of transistors respectively positioned next to the second transistors of the first and second transistor types.
1. An integrated circuit, comprising: four conductive linear-shaped structures each respectively including a gate electrode portion and an extension portion extending away from the gate electrode portion, each conductive linear-shaped structure extending lengthwise in a parallel direction, wherein e
1. An integrated circuit, comprising: four conductive linear-shaped structures each respectively including a gate electrode portion and an extension portion extending away from the gate electrode portion, each conductive linear-shaped structure extending lengthwise in a parallel direction, wherein each of the four conductive linear-shaped structures includes only one gate electrode portion, wherein gate electrode portions of two of the four conductive linear-shaped structures respectively form a gate electrode of a first transistor of a first transistor type and a gate electrode of a second transistor of the first transistor type, and wherein gate electrode portions of two of the four conductive linear-shaped structures respectively form a gate electrode of a first transistor of a second transistor type and a gate electrode of a second transistor of the second transistor type;four conductive contacting structures respectively connected to the extension portions of the four conductive linear-shaped structures such that each extension portion has a respective contact-to-end distance as measured in the parallel direction away from the gate electrode portion, wherein at least two of the contact-to-end distances are different;a fifth conductive linear-shaped structure including two gate electrode portions that respectively form gate electrodes of third transistors of the first and second transistor types, the third transistors of the first and second transistor types respectively positioned next to the first transistors of the first and second transistor types; anda sixth conductive linear-shaped structure including two gate electrode portions that respectively form gate electrodes of fourth transistors of the first and second transistor types, the fourth transistors of the first and second transistor types respectively positioned next to the second transistors of the first and second transistor types. 2. An integrated circuit as recited in claim 1, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor and that is located between at least two gate electrode forming conductive linear-shaped structures, the seventh conductive linear-shaped structure and at least one of the at least two gate electrode forming conductive linear-shaped structures having a substantially equal size as measured perpendicular to the parallel direction. 3. An integrated circuit as recited in claim 1, further comprising: a first conductive linear-shaped interconnect structure formed to extend lengthwise perpendicular to the parallel direction. 4. An integrated circuit as recited in claim 3, further comprising: a second conductive linear-shaped interconnect structure formed to extend lengthwise perpendicular to the parallel direction and formed next to and spaced apart from the first conductive linear-shaped interconnect structure. 5. An integrated circuit as recited in claim 4, wherein the four conductive linear-shaped structures are positioned between the fifth and sixth conductive linear-shaped structures in a direction perpendicular to the parallel direction. 6. An integrated circuit as recited in claim 1, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor. 7. An integrated circuit as recited in claim 6, further comprising: an eighth conductive linear-shaped structure including two gate electrode portions that respectively form gate electrodes of fifth transistors of the first and second transistor types, the eighth conductive linear-shaped structure positioned next to and spaced apart from the seventh conductive linear-shaped structure. 8. An integrated circuit as recited in claim 6, wherein the seventh conductive linear-shaped structure and a neighboring conductive linear-shaped structure have a substantially equal size as measured perpendicular to the parallel direction, the neighboring conductive linear-shaped structure positioned next to and spaced apart from the seventh conductive linear-shaped structure. 9. An integrated circuit as recited in claim 1, further comprising: a first linear-shaped conductive interconnect structure formed to extend lengthwise in the parallel direction. 10. An integrated circuit as recited in claim 9, further comprising: a second linear-shaped conductive interconnect structure formed to extend lengthwise in the parallel direction and formed next to and spaced apart from the first linear-shaped conductive interconnect structure. 11. An integrated circuit as recited in claim 10, wherein a distance, as measured perpendicular to the parallel direction, between parallel direction oriented centerlines of any of the gate electrodes of the first, second, third, and fourth transistors of the first transistor type and of the first, second, third, and fourth transistors of the second transistor type is an integer multiple of an equal pitch, and wherein a distance, as measured perpendicular to the parallel direction, between lengthwise-oriented-centerlines of the first and second linear-shaped conductive interconnect structures is a rational multiple of the equal pitch. 12. An integrated circuit as recited in claim 11, wherein the rational multiple is less than or equal to one. 13. An integrated circuit as recited in claim 12, wherein the rational multiple is one. 14. An integrated circuit as recited in claim 13, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor. 15. An integrated circuit as recited in claim 1, wherein a distance, as measured perpendicular to the parallel direction, between parallel direction oriented centerlines of any of the gate electrodes of the first, second, third, and fourth transistors of the first transistor type and of the first, second, third, and fourth transistors of the second transistor type is an integer multiple of an equal pitch, and wherein the conductive linear-shaped structures that form the gate electrodes of the first transistors of the first and second transistor types are positioned in an end-to-end spaced apart manner so as to be separated from each other by a first end-to-end spacing, andwherein the conductive linear-shaped structures that form the gate electrodes of the second transistors of the first and second transistor types are positioned in an end-to-end spaced apart manner so as to be separated from each other by a second end-to-end spacing. 16. An integrated circuit as recited in claim 15, further comprising: a first electrical connection formed between the conductive linear-shaped structure that forms the first transistor of the second transistor type and the conductive linear-shaped structure that forms the second transistor of the first transistor type, the first electrical connection including at least one conductive structure that does not form a gate electrode of any transistor. 17. An integrated circuit as recited in claim 16, wherein the conductive linear-shaped structure that forms the first transistor of the second transistor type and the conductive linear-shaped structure that forms the second transistor of the first transistor type are positioned within 360 nanometers of each other. 18. An integrated circuit as recited in claim 15, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor, the seventh conductive linear-shaped structure positioned next to and spaced apart from either the fifth conductive linear-shaped structure or sixth conductive linear-shaped structure. 19. An integrated circuit as recited in claim 18, further comprising: an eighth conductive linear-shaped structure including two gate electrode portions that respectively form gate electrodes of fifth transistors of the first and second transistor types, the eighth conductive linear-shaped structure positioned next to and spaced apart from the seventh conductive linear-shaped structure. 20. An integrated circuit as recited in claim 18, wherein the seventh conductive linear-shaped structure and a neighboring conductive linear-shaped structure have a substantially equal size as measured perpendicular to the parallel direction, the neighboring conductive linear-shaped structure positioned next to and spaced apart from the seventh conductive linear-shaped structure. 21. An integrated circuit as recited in claim 15, wherein a size of the first end-to-end spacing as measured in the parallel direction is less than or equal to 240 nanometers. 22. An integrated circuit as recited in claim 21, wherein a size of the second end-to-end spacing as measured in the parallel direction is less than or equal to 240 nanometers. 23. An integrated circuit as recited in claim 22, wherein each of the first and second transistors of the first transistor type is formed in part by a shared diffusion region of a first diffusion type, and wherein each of the first and second transistors of the second transistor type is formed in part by a shared diffusion region of a second diffusion type, and wherein the shared diffusion region of the first diffusion type is electrically connected to the shared diffusion region of the second diffusion type. 24. An integrated circuit as recited in claim 23, further comprising: a first interconnect level including a first linear-shaped conductive interconnect structure formed to extend lengthwise perpendicular to the parallel direction, the first linear-shaped conductive interconnect structure forming part of an electrical connection between the shared diffusion region of the first diffusion type and the shared diffusion region of the second diffusion type. 25. An integrated circuit as recited in claim 24, further comprising: a second interconnect level including a second linear-shaped conductive interconnect structure formed to extend lengthwise in the parallel direction, the second linear-shaped conductive interconnect structure forming part of the electrical connection between the shared diffusion region of the first diffusion type and the shared diffusion region of the second diffusion type. 26. An integrated circuit as recited in claim 15, wherein at least two of the four conductive linear-shaped structures have different lengths as measured in the parallel direction. 27. An integrated circuit as recited in claim 26, wherein each of the fifth and sixth conductive linear-shaped structures has a respective end aligned to a first position in the parallel direction, and wherein two of the four conductive linear-shaped structures each has a respective end aligned to the first position in the parallel direction. 28. An integrated circuit as recited in claim 27, wherein the four conductive linear-shaped structures are positioned between the fifth and sixth conductive linear-shaped structures in a direction perpendicular to the parallel direction. 29. An integrated circuit as recited in claim 27, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor. 30. An integrated circuit as recited in claim 29, wherein the seventh conductive linear-shaped structure is positioned next to and spaced apart from either the fifth conductive linear-shaped structure or the sixth conductive linear-shaped structure. 31. An integrated circuit as recited in claim 30, further comprising: an eighth conductive linear-shaped structure including two gate electrode portions that respectively form gate electrodes of fifth transistors of the first and second transistor types, the eighth conductive linear-shaped structure positioned next to and spaced apart from the seventh conductive linear-shaped structure. 32. An integrated circuit as recited in claim 15, wherein at least three of the four conductive linear-shaped structures have different lengths as measured in the parallel direction. 33. An integrated circuit as recited in claim 32, wherein each of the fifth and sixth conductive linear-shaped structures has a respective end aligned to a first position in the parallel direction, and wherein two of the four conductive linear-shaped structures each has a respective end aligned to the first position in the parallel direction. 34. An integrated circuit as recited in claim 33, wherein the four conductive linear-shaped structures are positioned between the fifth and sixth conductive linear-shaped structures in a direction perpendicular to the parallel direction. 35. An integrated circuit as recited in claim 33, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor. 36. An integrated circuit as recited in claim 35, wherein the seventh conductive linear-shaped structure is positioned next to and spaced apart from either the fifth conductive linear-shaped structure or the sixth conductive linear-shaped structure. 37. An integrated circuit as recited in claim 36, further comprising: an eighth conductive linear-shaped structure including two gate electrode portions that respectively form gate electrodes of fifth transistors of the first and second transistor types, the eighth conductive linear-shaped structure positioned next to and spaced apart from the seventh conductive linear-shaped structure. 38. An integrated circuit as recited in claim 15, wherein the four conductive contacting structures are respectively connected to the extension portions of the four conductive linear-shaped structures such that each extension portion has a respective contact-to-gate distance as measured in the parallel direction toward the gate electrode portion, wherein at least two of the contact-to-gate distances are different. 39. An integrated circuit as recited in claim 38, wherein at least two of the four conductive linear-shaped structures have different lengths as measured in the parallel direction. 40. An integrated circuit as recited in claim 39, wherein the four conductive linear-shaped structures are positioned between the fifth and sixth conductive linear-shaped structures in a direction perpendicular to the parallel direction. 41. An integrated circuit as recited in claim 39, further comprising: a first electrical connection formed between the conductive linear-shaped structure that forms the first transistor of the second transistor type and the conductive linear-shaped structure that forms the second transistor of the first transistor type, the first electrical connection extending through no more than one interconnect layer. 42. An integrated circuit as recited in claim 41, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor. 43. An integrated circuit as recited in claim 38, wherein at least three of the contact-to-gate distances are different. 44. An integrated circuit as recited in claim 43, wherein at least two of the four conductive linear-shaped structures have different lengths as measured in the parallel direction. 45. An integrated circuit as recited in claim 44, wherein the four conductive linear-shaped structures are positioned between the fifth and sixth conductive linear-shaped structures in a direction perpendicular to the parallel direction. 46. An integrated circuit as recited in claim 44, further comprising: a seventh conductive linear-shaped structure that does not form a gate electrode of any transistor. 47. A method for creating a layout of an integrated circuit, comprising: operating a computer to define layouts of four conductive linear-shaped structures each respectively including a gate electrode portion and an extension portion extending away from the gate electrode portion, each conductive linear-shaped structure layout extending lengthwise in a parallel direction, wherein each layout of the four conductive linear-shaped structures includes only one gate electrode portion, wherein gate electrode portions of two of the four conductive linear-shaped structures are respectively defined to form a gate electrode of a first transistor of a first transistor type and a gate electrode of a second transistor of the first transistor type, and wherein gate electrode portions of two of the four conductive linear-shaped structures are respectively defined to form a gate electrode of a first transistor of a second transistor type and a gate electrode of a second transistor of the second transistor type;operating the computer to define layouts of four conductive contacting structures to respectively connect to the extension portions of the four conductive linear-shaped structures such that each extension portion has a respective contact-to-end distance as measured in the parallel direction away from the gate electrode portion, wherein at least two of the contact-to-end distances are different;operating the computer to define a layout of a fifth conductive linear-shaped structure including two gate electrode portions that are respectively defined to form gate electrodes of third transistors of the first and second transistor types, the third transistors of the first and second transistor types respectively positioned next to the first transistors of the first and second transistor types; andoperating the computer to define a layout of a sixth conductive linear-shaped structure including two gate electrode portions that are respectively defined to farm gate electrodes of fourth transistors of the first and second transistor types, the fourth transistors of the first and second transistor types respectively positioned next to the second transistors of the first and second transistor types. 48. A data storage device having program instructions stored thereon for a semiconductor device layout, comprising: program instructions for defining layouts of four conductive linear-shaped structures each respectively including a gate electrode portion and an extension portion extending away from the gate electrode portion, each conductive linear-shaped structure layout extending lengthwise in a parallel direction, wherein each layout of the four conductive linear-shaped structures includes only one gate electrode portion, wherein gate electrode portions of two of the four conductive linear-shaped structures are respectively defined to form a gate electrode of a first transistor of a first transistor type and a gate electrode of a second transistor of the first transistor type, and wherein gate electrode portions of two of the four conductive linear-shaped structures are respectively defined to form a gate electrode of a first transistor of a second transistor type and a gate electrode of a second transistor of the second transistor type;program instructions for defining layouts of four conductive contacting structures to respectively connect to the extension portions of the four conductive linear-shaped structures such that each extension portion has a respective contact-to-end distance as measured in the parallel direction away from the gate electrode portion, wherein at least two of the contact-to-end distances are different;program instructions for defining a layout of a fifth conductive linear-shaped structure including two gate electrode portions that are respectively defined to form gate electrodes of third transistors of the first and second transistor types, the third transistors of the first and second transistor types respectively positioned next to the first transistors of the first and second transistor types; andprogram instructions for defining a layout of a sixth conductive linear-shaped structure including two gate electrode portions that are respectively defined to form gate electrodes of fourth transistors of the first and second transistor types, the fourth transistors of the first and second transistor types respectively positioned next to the second transistors of the first and second transistor types.
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