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-0827755 (2013-03-14) |
등록번호 | US-8921896 (2014-12-30) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 8 인용 특허 : 522 |
A first linear-shaped conductive structure (LSCS) forming gate electrodes of both a first p-transistor and a first n-transistor. A second LSCS forming a gate electrode of a second p-transistor and including an extension portion extending away therefrom. A third LSCS forming a gate electrode of a sec
A first linear-shaped conductive structure (LSCS) forming gate electrodes of both a first p-transistor and a first n-transistor. A second LSCS forming a gate electrode of a second p-transistor and including an extension portion extending away therefrom. A third LSCS forming a gate electrode of a second n-transistor and including an extension portion extending away therefrom. A fourth LSCS forming a gate electrode of a third p-transistor and including an extension portion extending away therefrom. A fifth LSCS forming a gate electrode of a third n-transistor and including an extension portion extending away therefrom. A sixth LSCS forming gate electrodes of both a fourth p-transistor and a fourth n-transistor. Four contact structures respectively contacting the extension portions of the second, third, fourth, and fifth LSCS's, such that at least two of the extension portions extend different distances beyond their contact structure.
1. An integrated circuit, comprising: a first linear-shaped conductive structure forming gate electrodes of both a first p-transistor and a first n-transistor;a second linear-shaped conductive structure that 1) forms a gate electrode of a second p-transistor and does not form any gate electrode of a
1. An integrated circuit, comprising: a first linear-shaped conductive structure forming gate electrodes of both a first p-transistor and a first n-transistor;a second linear-shaped conductive structure that 1) forms a gate electrode of a second p-transistor and does not form any gate electrode of any n-transistor, and 2) is positioned next to and spaced apart from the first linear-shaped conductive structure, and 3) includes an extension portion extending away from the gate electrode of the second p-transistor;a third linear-shaped conductive structure that 1) fowls a gate electrode of a second n-transistor and does not form any gate electrode of any p-transistor, and 2) is positioned next to and spaced apart from the first linear-shaped conductive structure, and 3) includes an extension portion extending away from the gate electrode of the second n-transistor;a fourth linear-shaped conductive structure that 1) forms a gate electrode of a third p-transistor and does not form any gate electrode of any n-transistor, and 2) includes an extension portion extending away from the gate electrode of the third p-transistor;a fifth linear-shaped conductive structure that 1) forms a gate electrode of a third n-transistor and does not form any gate electrode of any p-transistor, and 2) includes an extension portion extending away from the gate electrode of the third n-transistor;a sixth linear-shaped conductive structure that 1) forms gate electrodes of both a fourth p-transistor and a fourth n-transistor, and 2) is positioned next to and spaced apart from each of the fourth and fifth linear-shaped conductive structures,the first, second, third, fourth, fifth, and sixth linear-shaped conductive structures formed to extend lengthwise in a parallel direction;a first contact structure contacting the extension portion of the second linear-shaped conductive structure such that the extension portion of the second linear-shaped conductive structure extends a first distance away from the first contact structure in the parallel direction away from the gate electrode of the second p-transistor;a second contact structure contacting the extension portion of the third linear-shaped conductive structure such that the extension portion of the third linear-shaped conductive structure extends a second distance away from the second contact structure in the parallel direction away from the gate electrode of the second n-transistor;a third contact structure contacting the extension portion of the fourth linear-shaped conductive structure such that the extension portion of the fourth linear-shaped conductive structure extends a third distance away from the third contact structure in the parallel direction away from the gate electrode of the third p-transistor;a fourth contact structure contacting the extension portion of the fifth linear-shaped conductive structure such that the extension portion of the fifth linear-shaped conductive structure extends a fourth distance away from the fourth contact structure in the parallel direction away from the gate electrode of the third n-transistor,wherein at least two of the first, second, third, and fourth distances are different. 2. An integrated circuit as recited in claim 1, further comprising: a non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor and that is located between at least two gate electrode forming linear-shaped conductive structures, the non-gate linear-shaped conductive structure and at least one of the at least two gate electrode forming linear-shaped conductive 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 linear-shaped conductive interconnect structure formed to extend lengthwise perpendicular to the parallel direction. 4. An integrated circuit as recited in claim 3, further comprising: a second linear-shaped conductive interconnect structure formed to extend lengthwise perpendicular to the parallel direction and formed next to and spaced apart from the first linear-shaped conductive interconnect structure. 5. An integrated circuit as recited in claim 4, wherein each of the second, third, fourth, and fifth linear-shaped conductive structures is positioned between the first and sixth linear-shaped conductive structures in a direction perpendicular to the parallel direction. 6. An integrated circuit as recited in claim 1, further comprising: a non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor. 7. An integrated circuit as recited in claim 6, further comprising: a seventh linear-shaped conductive structure that 1) forms gate electrodes of both a fifth p-transistor and a fifth n-transistor, and 2) is positioned next to and spaced apart from the non-gate linear-shaped conductive structure. 8. An integrated circuit as recited in claim 6, wherein the non-gate linear-shaped conductive structure and a neighboring linear-shaped conductive structure have a substantially equal size as measured perpendicular to the parallel direction, the neighboring linear-shaped conductive structure positioned next to and spaced apart from the non-gate linear-shaped conductive 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 lengthwise-oriented-centerlines of any of the first, second, third, fourth, fifth, and sixth linear-shaped conductive structures 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 non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor. 15. An integrated circuit as recited in claim 1, wherein a distance, as measured perpendicular to the parallel direction, between lengthwise-oriented-centerlines of any of the first, second, third, fourth, fifth, and sixth linear-shaped conductive structures is an integer multiple of an equal pitch, and wherein the second and third linear-shaped conductive structures 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 fourth and fifth linear-shaped conductive structures 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 third and fourth linear-shaped conductive structures, the first electrical connection including at least one conductive structure that does not also form a gate electrode of any transistor. 17. An integrated circuit as recited in claim 16, wherein the third and fourth linear-shaped conductive structures are positioned within 360 nanometers of each other. 18. An integrated circuit as recited in claim 15, further comprising: a non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor, the non-gate linear-shaped conductive structure positioned next to and spaced apart from either the first linear-shaped conductive structure or sixth linear-shaped conductive structure. 19. An integrated circuit as recited in claim 18, further comprising: a seventh linear-shaped conductive structure that 1) forms gate electrodes of both a fifth p-transistor and a fifth n-transistor, and 2) is positioned next to and spaced apart from the non-gate linear-shaped conductive structure. 20. An integrated circuit as recited in claim 18, wherein the non-gate linear-shaped conductive structure and a neighboring linear-shaped conductive structure have a substantially equal size as measured perpendicular to the parallel direction, the neighboring linear-shaped conductive structure positioned next to and spaced apart from the non-gate linear-shaped conductive 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 the second and third p-transistors share a first p-diffusion region, and wherein the second and third n-transistors share a first n-diffusion region, and wherein the first p-diffusion region and the first n-diffusion region are electrically connected to each other. 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 first p-diffusion region and the first n-diffusion region. 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 first p-diffusion region and the first n-diffusion region. 26. An integrated circuit as recited in claim 15, wherein at least two of the second, third, fourth, and fifth linear-shaped conductive structures have different lengths as measured in the parallel direction. 27. An integrated circuit as recited in claim 26, wherein each of the first and sixth linear-shaped conductive structures has a respective end aligned to a first position in the parallel direction, and wherein two of the second, third, fourth, and fifth linear-shaped conductive 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 each of the second, third, fourth, and fifth linear-shaped conductive structures is positioned between the first and sixth linear-shaped conductive structures in a direction perpendicular to the parallel direction. 29. An integrated circuit as recited in claim 27, further comprising: a non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor. 30. An integrated circuit as recited in claim 29, wherein the non-gate linear-shaped conductive structure positioned next to and spaced apart from either the first linear-shaped conductive structure or sixth linear-shaped conductive structure. 31. An integrated circuit as recited in claim 30, further comprising: a seventh linear-shaped conductive structure that 1) forms gate electrodes of both a fifth p-transistor and a fifth n-transistor, and 2) is positioned next to and spaced apart from the non-gate linear-shaped conductive structure. 32. An integrated circuit as recited in claim 15, wherein at least three of the second, third, fourth, and fifth linear-shaped conductive structures have different lengths as measured in the parallel direction. 33. An integrated circuit as recited in claim 32, wherein each of the first and sixth linear-shaped conductive structures has a respective end aligned to a first position in the parallel direction, and wherein two of the second, third, fourth, and fifth linear-shaped conductive 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 each of the second, third, fourth, and fifth linear-shaped conductive structures is positioned between the first and sixth linear-shaped conductive structures in a direction perpendicular to the parallel direction. 35. An integrated circuit as recited in claim 33, further comprising: a non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor. 36. An integrated circuit as recited in claim 35, wherein the non-gate linear-shaped conductive structure positioned next to and spaced apart from either the first linear-shaped conductive structure or sixth linear-shaped conductive structure. 37. An integrated circuit as recited in claim 36, further comprising: a seventh linear-shaped conductive structure that 1) forms gate electrodes of both a fifth p-transistor and a fifth n-transistor, and 2) is positioned next to and spaced apart from the non-gate linear-shaped conductive structure. 38. An integrated circuit as recited in claim 15, wherein the first contact structure contacts the second linear-shaped conductive structure at a first connection distance from the second p-transistor, wherein the second contact structure contacts the third linear-shaped conductive structure at a second connection distance from the second n-transistor,wherein the third contact structure contacts the fourth linear-shaped conductive structure at a third connection distance from the third p-transistor,wherein the fourth contact structure contacts the fifth linear-shaped conductive structure at a fourth connection distance from the third n-transistor,wherein each of the first, second, third, and fourth connection distances is measured in the parallel direction, andwherein at least two of the first, second, third, and fourth connection distances are different. 39. An integrated circuit as recited in claim 38, wherein at least two of the second, third, fourth, and fifth linear-shaped conductive structures have different lengths as measured in the parallel direction. 40. An integrated circuit as recited in claim 39, wherein each of the second, third, fourth, and fifth linear-shaped conductive structures is positioned between the first and sixth linear-shaped conductive 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 third and fourth linear-shaped conductive structures, the first electrical connection including at least one conductive structure that does not also form a gate electrode of any transistor. 42. An integrated circuit as recited in claim 41, further comprising: a non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor. 43. An integrated circuit as recited in claim 38, wherein at least three of the first, second, third, and fourth connection distances are different. 44. An integrated circuit as recited in claim 43, wherein at least two of the second, third, fourth, and fifth linear-shaped conductive structures have different lengths as measured in the parallel direction. 45. An integrated circuit as recited in claim 44, wherein each of the second, third, fourth, and fifth linear-shaped conductive structures is positioned between the first and sixth linear-shaped conductive structures in a direction perpendicular to the parallel direction. 46. An integrated circuit as recited in claim 44, further comprising: a non-gate linear-shaped conductive structure that does not form a gate electrode of a transistor. 47. A data storage device having program instructions stored thereon for a semiconductor device layout, comprising: a layout of a first linear-shaped conductive structure defined to form gate electrodes of both a first p-transistor and a first n-transistor;a layout of a second linear-shaped conductive structure that 1) is defined to form a gate electrode of a second p-transistor and is not defined to form any gate electrode of any n-transistor, and 2) is positioned next to and spaced apart from the first linear-shaped conductive structure, and 3) includes an extension portion extending away from the gate electrode of the second p-transistor;a layout of a third linear-shaped conductive structure that 1) is defined to form a gate electrode of a second n-transistor and is not defined to form any gate electrode of any p-transistor, and 2) is positioned next to and spaced apart from the first linear-shaped conductive structure, and 3) includes an extension portion extending away from the gate electrode of the second n-transistor;a layout of a fourth linear-shaped conductive structure that 1) is defined to form a gate electrode of a third p-transistor and is not defined to form any gate electrode of any n-transistor, and 2) includes an extension portion extending away from the gate electrode of the third p-transistor;a layout of a fifth linear-shaped conductive structure that 1) is defined to form a gate electrode of a third n-transistor and is not defined to form any gate electrode of any p-transistor, and 2) includes an extension portion extending away from the gate electrode of the third n-transistor;a layout of a sixth linear-shaped conductive structure that 1) is defined to form gate electrodes of both a fourth p-transistor and a fourth n-transistor, and 2) is positioned next to and spaced apart from each of the fourth and fifth linear-shaped conductive structures,the first, second, third, fourth, fifth, and sixth linear-shaped conductive structures formed to extend lengthwise in a parallel direction;a layout of a first contact structure defined to contact the extension portion of the second linear-shaped conductive structure such that the extension portion of the second linear-shaped conductive structure extends a first distance away from the first contact structure in the parallel direction away from the gate electrode of the second p-transistor;a layout of a second contact structure defined to contact the extension portion of the third linear-shaped conductive structure such that the extension portion of the third linear-shaped conductive structure extends a second distance away from the second contact structure in the parallel direction away from the gate electrode of the second n-transistor;a layout of a third contact structure defined to contact the extension portion of the fourth linear-shaped conductive structure such that the extension portion of the fourth linear-shaped conductive structure extends a third distance away from the third contact structure in the parallel direction away from the gate electrode of the third p-transistor;a layout of a fourth contact structure defined to contact the extension portion of the fifth linear-shaped conductive structure such that the extension portion of the fifth linear-shaped conductive structure extends a fourth distance away from the fourth contact structure in the parallel direction away from the gate electrode of the third n-transistor,wherein at least two of the first, second, third, and fourth distances are different. 48. A method for creating a layout of an integrated circuit, comprising: operating a computer to define a layout of a first linear-shaped conductive structure defined to form gate electrodes of both a first p-transistor and a first n-transistor;operating a computer to define a layout of a second linear-shaped conductive structure that 1) is defined to form a gate electrode of a second p-transistor and is not defined to form any gate electrode of any n-transistor, and 2) is positioned next to and spaced apart from the first linear-shaped conductive structure, and 3) includes an extension portion extending away from the gate electrode of the second p-transistor;operating a computer to define a layout of a third linear-shaped conductive structure that 1) is defined to form a gate electrode of a second n-transistor and is not defined to form any gate electrode of any p-transistor, and 2) is positioned next to and spaced apart from the first linear-shaped conductive structure, and 3) includes an extension portion extending away from the gate electrode of the second n-transistor;operating a computer to define a layout of a fourth linear-shaped conductive structure that 1) is defined to form a gate electrode of a third p-transistor and is not defined to form any gate electrode of any n-transistor, and 2) includes an extension portion extending away from the gate electrode of the third p-transistor;operating a computer to define a layout of a fifth linear-shaped conductive structure that 1) is defined to form a gate electrode of a third n-transistor and is not defined to form any gate electrode of any p-transistor, and 2) includes an extension portion extending away from the gate electrode of the third n-transistor;operating a computer to define a layout of a sixth linear-shaped conductive structure that 1) is defined to form gate electrodes of both a fourth p-transistor and a fourth n-transistor, and 2) is positioned next to and spaced apart from each of the fourth and fifth linear-shaped conductive structures,the first, second, third, fourth, fifth, and sixth linear-shaped conductive structures formed to extend lengthwise in a parallel direction;operating a computer to define a layout of a first contact structure defined to contact the extension portion of the second linear-shaped conductive structure such that the extension portion of the second linear-shaped conductive structure extends a first distance away from the first contact structure in the parallel direction away from the gate electrode of the second p-transistor;operating a computer to define a layout of a second contact structure defined to contact the extension portion of the third linear-shaped conductive structure such that the extension portion of the third linear-shaped conductive structure extends a second distance away from the second contact structure in the parallel direction away from the gate electrode of the second n-transistor;operating a computer to define a layout of a third contact structure defined to contact the extension portion of the fourth linear-shaped conductive structure such that the extension portion of the fourth linear-shaped conductive structure extends a third distance away from the third contact structure in the parallel direction away from the gate electrode of the third p-transistor;operating a computer to define a layout of a fourth contact structure defined to contact the extension portion of the fifth linear-shaped conductive structure such that the extension portion of the fifth linear-shaped conductive structure extends a fourth distance away from the fourth contact structure in the parallel direction away from the gate electrode of the third n-transistor,wherein at least two of the first, second, third, and fourth distances are different.
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