A fine pattern, such as a semiconductor integrated circuit (LSI), a liquid crystal panel, and a photomask (reticle) for the semiconductor or the liquid crystal panel, which are fabricated based on data for fabricating the fine pattern such as design data is inspected by a pattern inspection apparatu
A fine pattern, such as a semiconductor integrated circuit (LSI), a liquid crystal panel, and a photomask (reticle) for the semiconductor or the liquid crystal panel, which are fabricated based on data for fabricating the fine pattern such as design data is inspected by a pattern inspection apparatus. The pattern inspection apparatus for inspecting a pattern to-be-inspected uses an image of the pattern to-be-inspected and data for fabricating the pattern to-be-inspected. The pattern inspection apparatus includes a reference pattern generation device configured to generate a reference pattern represented by one or more lines from the data, an image generation device configured to generate the image of the pattern to-be-inspected, a detecting device configured to detect an edge of the image of the pattern to-be-inspected, and an inspection device configured to inspect the pattern to-be-inspected by comparing the edge of the image of the pattern to-be-inspected with the one or more lines of the reference pattern.
대표청구항▼
What is claimed is: 1. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate sai
What is claimed is: 1. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; and (d) recognizing repeated defects, relating to same geometric information of said data, from said defect information. 2. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; (d) generating said defect information from a plurality of patterns to-be-inspected that are fabricated by one time exposure of exposure patterns that include multiple sets of patterns; (e) recognizing repeated defects within said defect information of said plurality of patterns to-be-inspected; (f) recognizing an unrepeated defect by removing said repeated defects from said defect information; and (g) determining whether a defect, which exists in the same location of said unrepeated defect and its neighborhood, exists in defect information generated for semiconductor devices fabricated by another one time exposure. 3. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; and (d) inspecting said pattern to-be-inspected using inspection results generated from a pattern to-be-inspected of a good quality specimen. 4. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; and (d) inspecting at least one relationship between a location of a pattern formed in a process at the time of said inspection and a location of a pattern formed in a preceding occurrence of said process at the time of said inspection, by performing matching between said image and said reference pattern with regard to said process at the time of said inspection, and performing matching between said image and said reference pattern with regard to said preceding occurrence of said process at the time of said inspection. 5. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; and (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; (d) extracting a contour based upon said detected edge and said line segment or said curve of said reference pattern; and (e) inspecting said pattern to-be-inspected by comparing said contour and one of (a) a contour extracted from an image of another pattern to-be-inspected fabricated from said data, and (b) a contour determined by a simulator using said data. 6. The pattern inspection apparatus according to claim 5, wherein said machine readable instruction, when executed, shift said detected edge to achieve at least one of (a) correction of said contour, and (b) reduction of noise on said contour. 7. The pattern inspection apparatus according to claim 5, wherein said machine readable instruction, when executed, reduce noise on said contour based upon distances between (a) said line segment and said curve of said reference pattern and (b) said detected edge. 8. The pattern inspection apparatus according to claim 5, further comprising an output device configured to output said contour, said pattern inspection apparatus utilizing said outputted contour to inspect said pattern to-be-inspected. 9. The pattern inspection apparatus according to claim 8, said output device using additional information of said data to output said contour. 10. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; and (d) determining inspection results by repeatedly inspecting the same pattern to-be-inspected of a good quality specimen while successively altering an allowable pattern deformation quantity, to determine optimal quantity of said allowable pattern deformation quantity. 11. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; and classifying said defect information based on at least one of (a) geometrical information of said reference pattern, (b) information of said data, and (c) information of data related to said data. 12. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; and (d) determining a critical area by inspecting said pattern to-be-inspected in semiconductor devices fabricated by exposure under a focus condition and an altered exposure dose condition, by detecting at least one of: a defect of at least one of (a) a line part, (b) a corner, and (c) an end, having edge placement errors; an isolated pattern having placement error; a defect of a corner having abnormal curvature; a defect detected by inspecting correction pattern that should not be formed on wafer; a defect detected by inspecting at least one of (d) a line width, (e) an average line width, (f) a space width, and (g) an average space width of a line-shaped pattern; a defect detected by inspecting at least one of (h) a line width, (i) an average line width, (j) a space width, and (k) an average space width of a curvilinear-shaped pattern; and a defect detected by inspecting a gate line width. 13. A pattern inspection apparatus for inspecting a pattern to-be-inspected by using an image of said pattern to-be-inspected and data for fabricating said pattern to-be-inspected, said pattern inspection apparatus comprising: an image generation device configured to generate said image of said pattern to-be-inspected; and a memory storing a plurality of machine readable instructions that when executed perform the steps of: (a) storing in said memory a reference pattern represented by one or both of (i) one or more line segments, and (ii) one or more curves, said reference pattern generated from said data; (b) storing in said memory detected edges of said image; (c) inspecting said pattern to-be-inspected by comparing said detected edge with at least one of said line segment and said curve of said reference pattern to generate defect information; and (d) determining a process window by inspecting said pattern to-be-inspected in semiconductor devices that are fabricated by exposure under an altered focus condition and an altered exposure dose condition by detecting at least one of: a defect of at least one of (a) a line part, (b) a corner, and (c) an end, having edge placement errors; an isolated pattern having placement error; a defect of a corner having abnormal curvature; a defect detected by inspecting correction pattern that should not be formed on wafer; a defect detected by inspecting at least one of (d) a line width, (e) an average line width, (f) a space width, and (g) an average space width of a line-shaped pattern; a defect detected by inspecting at least one of (h) a line width, (i) an average line width, (j) a space width, and (k) an average space width of a curvilinear-shaped pattern; and a defect detected by inspecting a gate line width. 14. A method of evaluating a fabrication process by inspecting a pattern to-be-inspected formed by said fabrication process based upon fabrication data, said pattern inspection method comprising: generating, within a pattern inspection apparatus, a reference pattern, from said data, represented by one or both of (a) one or more line segments and (b) one or more curves; detecting, within said pattern inspection apparatus, an edge of an image of said pattern to-be-inspected; and inspecting said pattern to-be-inspected by comparing, within said pattern inspection apparatus, said detected edge with at least one of said line segment and said curve of said reference pattern; wherein a relationship between a location of a pattern formed in a process at the time of said inspection and a location of said pattern formed in a preceding occurrence of said process at the time of said inspection is evaluated by matching said image and said reference pattern of said process at the time of said inspection, and matching said image and said reference pattern of said preceding occurrence of said process at the time of said inspection. 15. A method of evaluating a fabrication process by inspecting a pattern to-be-inspected formed by said fabrication process based upon fabrication data, said pattern inspection method comprising: generating, within a pattern inspection apparatus, a reference pattern, from said data, represented by one or both of (a) one or more line segments and (b) one or more curves; detecting, within said pattern inspection apparatus, an edge of an image of said pattern to-be-inspected; inspecting said pattern to-be-inspected by comparing, within said pattern inspection apparatus, said detected edge with at least one of said line segment and said curve of said reference pattern; and prior to said step of inspecting, extracting a contour by determining a correspondence between said detected edge and said line segment or said curve of said reference pattern, said step of inspecting comprising comparing said contour and one of (a) a contour extracted from an image of another pattern to-be-inspected fabricated by said data, and (b) a contour determined by a simulator using said data. 16. A method of evaluating a fabrication process by inspecting a pattern to-be-inspected formed by said fabrication process based upon fabrication data, said pattern inspection method comprising: generating, within a pattern inspection apparatus, a reference pattern, from said data, represented by one or both of (a) one or more line segments and (b) one or more curves; detecting, within said pattern inspection apparatus, an edge of an image of said pattern to-be-inspected; inspecting said pattern to-be-inspected by comparing, within said pattern inspection apparatus, said detected edge with at least one of said line segment and said curve of said reference pattern; and determining a critical area by inspecting said pattern to-be-inspected in semiconductor devices that are fabricated by exposure under an altered focus condition and an altered exposure dose condition, by detecting at least one of: a defect of at least one of (a) a line part, (b) a corner, and (c) an end, having edge placement errors; an isolated pattern having placement error; a defect of a corner having abnormal curvature; a defect detected by inspecting correction pattern that should not be formed on wafer; a defect detected by inspecting at least one of (d) a line width, (e) an average line width, (f) a space width, and (g) an average space width of a line-shaped pattern; a defect detected by inspecting at least one of (h) a line width, (i) an average line width, (j) a space width, and (k) an average space width of a curvilinear-shaped pattern; and a defect detected by inspecting a gate line width. 17. A method of evaluating a fabrication process by inspecting a pattern to-be-inspected formed by said fabrication process based upon fabrication data, said pattern inspection method comprising: generating, within a pattern inspection apparatus, a reference pattern, from said data, represented by one or both of (a) one or more line segments and (b) one or more curves; detecting, within said pattern inspection apparatus, an edge of an image of said pattern to-be-inspected; inspecting said pattern to-be-inspected by comparing, within said pattern inspection apparatus, said detected edge with at least one of said line segment and said curve of said reference pattern; and determining a process window by inspecting said pattern to-be-inspected in semiconductor devices that are fabricated by exposure under an altered focus condition and an altered exposure dose condition, by detecting at least one of: a defect of at least one of (a) a line part, (b) a corner, and (c) an end, having edge placement errors; an isolated pattern having placement error; a defect of a corner having abnormal curvature; a defect detected by inspecting correction pattern that should not be formed on wafer; a defect detected by inspecting at least one of (d) a line width, (e) an average line width, (f) a space width, and (g) an average space width of a line-shaped pattern; a defect detected by inspecting at least one of (h) a line width, (i) an average line width, (j) a space width, and (k) an average space width of a curvilinear-shaped pattern; and a defect detected by inspecting a gate line width. 18. The pattern inspection apparatus of claim 1, wherein said edges are detected by an inspection unit configurable to locate edges at a zero-crossings of a second derivative of intensity in the image.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (35)
Fan Zhigang (Webster NY), Anti-counterfeit pattern detector and method.
Koshishiba Hiroya (Yokohama JPX) Fushimi Satoru (Yokohama JPX) Nakagawa Yasuo (Chigasaki JPX) Nakahata Kozo (Chigasaki JPX), Apparatus and method of pattern detection based on a scanning transmission electron microscope.
Duvdevani,Sharon; Gilat Bernshtein,Tally; Klingbell,Eyal; Mayo,Meir; Rippa,Shmuel; Smilansky,Zeev, Apparatus and methods for the inspection of objects.
Duvdevani,Sharon; Gilat Bernshtein,Tally; Klingbell,Eyal; Mayo,Meir; Rippa,Shmuel; Smilansky,Zeev, Apparatus and methods for the inspection of objects.
Duvdevani,Sharon; Gilat Bernshtein,Tally; Klingbell,Eyal; Mayo,Meir; Rippa,Shmuel; Smilansky,Zeev, Apparatus and methods for the inspection of objects.
Emery David G. (San Jose CA) Saidin Zain K. (Sunnyvale CA) Wihl Mark J. (Tracy CA) Fu Tao-Yi (Fremont CA) Zywno Marek (San Jose CA) Kvamme Damon F. (Ann Arbor MI) Fein Michael E. (Mountain View CA), Automated photomask inspection apparatus and method.
Specht Donald F. (Los Altos CA) Wihl Tim S. (San Jose CA) Young Scott A. (Scotts Valley CA) Hager ; Jr. James J. (San Jose CA) Lutzker Matthew B. (Menlo Park CA), Automatic photomask and reticle inspection method and apparatus including improved defect detector and alignment sub-sys.
Hisashi Shiba JP, Automatic visual inspection apparatus automatic visual inspection method and recording medium having recorded an automatic visual inspection program.
Takagi Yuji,JPX ; Doi Hideaki,JPX ; Ono Makoto,JPX, Method and system for manufacturing semiconductor devices, and method and system for inspecting semiconductor devices.
Takagi, Yuji; Doi, Hideaki; Ono, Makoto, Method and system for manufacturing semiconductor devices, and method and system for inspecting semiconductor devices.
Knippelmeyer, Rainer; Kienzle, Oliver; Kemen, Thomas; Mueller, Heiko; Uhlemann, Stephan; Haider, Maximilian; Casares, Antonio; Rogers, Steven, Particle-optical systems and arrangements and particle-optical components for such systems and arrangements.
Knippelmeyer, Rainer; Kienzle, Oliver; Kemen, Thomas; Mueller, Heiko; Uhlemann, Stephan; Haider, Maximilian; Casares, Antonio; Rogers, Steven, Particle-optical systems and arrangements and particle-optical components for such systems and arrangements.
Knippelmeyer, Rainer; Kienzle, Oliver; Kemen, Thomas; Mueller, Heiko; Uhlemann, Stephan; Haider, Maximillian; Casares, Antonio; Rogers, Steven, Particle-optical systems and arrangements and particle-optical components for such systems and arrangements.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.