Abstract: Although there has been a method for evaluating pattern shapes of electronic devices by using, as a reference pattern, design data or a non-defective pattern, the conventional method has a problem that the pattern shape cannot be evaluated with high accuracy because of the difficulty in defining an exact shape suitable for the manufacturing conditions of the electronic devices. The present invention provides a shape evaluation method for circuit patterns of electronic devices, the method including a means for generating contour distribution data of at least two circuit patterns from contour data sets on the circuit patterns; a means for generating a reference pattern used for the pattern shape evaluation, from the contour distribution data; and a means for evaluating the pattern shape by comparing each evaluation target pattern with the reference pattern.

Abstract: (1) part or all of the number, coordinates and size/shape and imaging sequence of imaging points each for observation, the imaging position change method and imaging conditions can be calculated automatically from CAD data, (2) a combination of input information and output information for imaging recipe creation can be set arbitrarily, and (3) decision is made of imaging or processing at an arbitrary imaging point as to whether to be successful/unsuccessful and in case a failure is determined, a relief process can be conducted in which the imaging point or imaging sequence is changed.

Abstract: It is an object of the present invention to provide an image processing device for allowing an actual-image-closer pattern to be formed based on the design data, or its simulation image. In order to accomplish the above-described object, the proposal is made concerning an image processing device which includes an image processing unit which sets the operation condition of a charged-particle beam device on the basis of the design data on a semiconductor element. Here, the image processing device accesses a library for storing device-condition information on the charged-particle beam device, pattern types, and a plurality of combinations of pattern information on each pattern-region basis. Moreover, the image processing device forms a composite image of each pattern region, using the pattern information on each pattern-region basis, and based on the device-condition information and the selection of a pattern type from the pattern types.

Abstract: Although there has been a method for evaluating pattern shapes of electronic devices by using, as a reference pattern, design data or a non-defective pattern, the conventional method has a problem that the pattern shape cannot be evaluated with high accuracy because of the difficulty in defining an exact shape suitable for the manufacturing conditions of the electronic devices. The present invention provides a shape evaluation method for circuit patterns of electronic devices, the method including a means for generating contour distribution data of at least two circuit patterns from contour data sets on the circuit patterns; a means for generating a reference pattern used for the pattern shape evaluation, from the contour distribution data; and a means for evaluating the pattern shape by comparing each evaluation target pattern with the reference pattern.

Abstract: An amount of displacement and an overlapping area between first and second patterns formed through a double patterning lithography process can be determined. The first pattern is formed by a first exposure while the second pattern is formed by a later second exposure. A first image of the first pattern is formed prior to the formation of the second pattern. A second image of both patterns is formed after the formation of the second pattern. A two-step matching process between combined information and images of the first and second patterns is performed. The combined information includes information regarding the first pattern, as formed, combined with design information of the second pattern. Based on a moving amount of the design information of the second pattern, a displacement amount between the first and second patterns is determined.

Abstract: The present invention provides a technique to generate an accurate connected image even in a monotonous pattern using design data as constrained conditions. A reference position is roughly determined through matching between the design data and image data, matching between neighboring images is performed using the amount of mismatch from the design data as a searching range and a connected image is generated at high speed and accurately.

Abstract: A pattern inspection apparatus can be provided, for example, in a scanning electron microscope system. When patterns of a plurality of layers are included in a SEM image, the apparatus separates the patterns according to each layer by using design data of the plurality of layers corresponding to the patterns. Consequently, the apparatus can realize inspection with use of only the pattern of a target layer to be inspected, pattern inspection differently for different layers, or detection of a positional offset between the layers.

Abstract: An object of the present invention is to provide an image processing apparatus and a computer program which detects a defect such as a scum at high speed and with high precision. In order to accomplish the above-described object, the present invention proposes an image processing apparatus and a computer program which acquires image data, and detects edge branch points from this image data. Here, at each of the edge branch points, an edge associated therewith branches off in at least three or more directions. According to this configuration, it becomes possible to detect a defect such as a scum without utilizing the reference-pattern image. As a consequence, it becomes possible to detect the scum at high speed and with high precision.

Abstract: Although there has been a method for evaluating pattern shapes of electronic devices by using, as a reference pattern, design data or a non-defective pattern, the conventional method has a problem that the pattern shape cannot be evaluated with high accuracy because of the difficulty in defining an exact shape suitable for the manufacturing conditions of the electronic devices. The present invention provides a shape evaluation method for circuit patterns of electronic devices, the method including a means for generating contour distribution data of at least two circuit patterns from contour data sets on the circuit patterns; a means for generating a reference pattern used for the pattern shape evaluation, from the contour distribution data; and a means for evaluating the pattern shape by comparing each evaluation target pattern with the reference pattern.

Abstract: A pattern measuring method and device are provided which set a reference position for a measuring point to be measured by a scanning electron microscope and the like, based on position information of a reference pattern on an image acquired from the scanning electron microscope and based on a positional relation, detected by using design data, between the measuring point and the reference pattern formed at a position isolated from the measuring point.

Abstract: An object of the present invention is to provide a managing apparatus of a semiconductor manufacturing apparatus and a computer program capable of performing an accurate process monitoring based on the obtained pattern image and the like. To accomplish the above object, according to one aspect of the present invention, there are proposed a managing apparatus of a semiconductor manufacturing apparatus including a library which stores an association between shape information of a pattern of a plurality of positions and an exposure condition of an exposing device and a calculation device which compares the shape information of the plurality of positions extracted from image information with the shape information stored in the library, and extracts the exposure condition based on a logical product of a range of a plurality of exposure conditions corresponding to the shape information of the plurality of patterns extracted from the image information, and a computer program which executes the above processes.

Abstract: Mutual compatibility is established between the measurement with a high magnification and the measurement in a wide region. A pattern measurement apparatus is proposed which adds identification information to each of fragments that constitute a pattern within an image obtained by the SEM, and which stores the identification information in a predetermined storage format. Here, the identification information is added to each fragment for distinguishing between one fragment and another fragment. According to the above-described configuration, it turns out that the identification information is added to each fragment on the SEM image which has possessed no specific identification information originally. As a result, it becomes possible to implement the SEM-image management based on the identification information.

Abstract: Although there has been a method for evaluating pattern shapes of electronic devices by using, as a reference pattern, design data or a non-defective pattern, the conventional method has a problem that the pattern shape cannot be evaluated with high accuracy because of the difficulty in defining an exact shape suitable for the manufacturing conditions of the electronic devices. The present invention provides a shape evaluation method for circuit patterns of electronic devices, the method including a means for generating contour distribution data of at least two circuit patterns from contour data sets on the circuit patterns; a means for generating a reference pattern used for the pattern shape evaluation, from the contour distribution data; and a means for evaluating the pattern shape by comparing each evaluation target pattern with the reference pattern.

Abstract: A pattern shape evaluation method and semiconductor inspection system having a unit for extracting contour data of a pattern from an image obtained by photographing a semiconductor pattern, a unit for generating pattern direction data from design data of the semiconductor pattern, and a unit for detecting a defect of a pattern, through comparison between pattern direction data obtained from the contour data and pattern direction data generated from the design data corresponding to a pattern position of the contour data.

Abstract: It is an object of the present invention is to provide an image processing technique that can detect the rotation of an observation image of a specimen with high accuracy. An image processing apparatus according to the present invention indirectly corrects a rotation gap between measurement image data and reference image data through wide-angle image data including a measurement part of a specimen (FIG. 1).

Abstract: One of principal objects of the present invention is to provide a sample dimension measuring method for detecting the position of an edge of a two-dimensional pattern constantly with the same accuracy irrespective of the direction of the edge and a sample dimension measuring apparatus. According to this invention, to accomplish the above object, it is proposed to correct the change of a signal waveform of secondary electrons which depends on the direction of scanning of an electron beam relative to the direction of a pattern edge of an inspection objective pattern. It is proposed that when changing the scanning direction of the electron beam in compliance with the direction of a pattern to be measured, errors in the scanning direction and the scanning position are corrected. In this configuration, a sufficient accuracy of edge detection can be obtained irrespective of the scanning direction of the electron beam.

Abstract: The present invention is intended to provide a contour extraction method and a contour extraction device with an objective of either suppression of unnecessary contouring processings or selective contouring of necessary portions. To attain the objective, provided are a contour extraction method, and a device, with which contours of pattern edges on an image formed based on charged particles emitted from a sample are extracted and, when contouring of a pattern located in an overlapping region provided in connecting images of plural image-capturing regions to form a synthesized image is performed, either areas of the pattern in the plurality of image-capturing regions, or a pre-set measurement portion is found, and selective contour extraction of the pattern with respect to an image of an image-capturing region is carried out either on a side where the area is large, or on a side where a measurement portion regarding the pattern is located.

Abstract: When setting a measurement position, on the basis of a defect coordinate, on a sample, which is arranged with a complex pattern or a plurality of patterns and which has a pattern in which the influence of the optical proximity effect needs to be evaluated, the measurement position is set so as to improve work efficiency. Provided is a device for setting a first measurement position and a second measurement position, wherein: a reference line comprising a plurality of line segments is superimposed on a two-dimensional region set by a pattern layout data; the first measurement position is set on the inside of a contour which indicates a pattern in which a defect coordinate on the layout data exists, and between the intersecting points of the reference line and said contour; and a second measurement position is set outside of said contour, and either on said contour and another portion of said contour or between the intersecting points of said contour and another portion of said contour.

Abstract: An object of the present invention is to provide a sample measuring method and a sample measuring device suitable for evaluation of inclination of a pattern edge. To achieve the object, a method and a device for forming a plurality of contours of a pattern edge and evaluating the dimension between the contours are proposed below. Forming a plurality of contours allows evaluation of the degree of inclination of an edge portion of a pattern. Further, displaying evaluation values indicative of the degree of the inclination of the edge portion in an in-plane distribution form makes identifying the cause of taper formation easier.

Abstract: An object of the present invention is to provide methods and equipment capable of providing highly accurate matching using a template including multiple patterns even when the shapes of some patterns of the template are different from corresponding ones of a SEM image, and when the template and the SEM image have a magnification error. Proposed, as a technique for achieving the object, is a method for performing matching by selectively using some of multiple patterns provided in a predetermined region of design data, and equipment for implementing the method. Moreover, proposed, as another technique for achieving the object, is a method for performing first matching by using multiple patterns provided in a predetermined region of design data and thereafter performing second matching by using some of the multiple patterns provided in the predetermined region, and equipment for implementing the method.