Patent application number | Description | Published |
20080215276 | IN-LINE OVERLAY MEASUREMENT USING CHARGED PARTICLE BEAM SYSTEM - A method and system for controlling an overlay shift on an integrated circuit is disclosed. The method and system comprises utilizing a scanning electron microscope (SEM) to measure the overlay shift between a first mask and a second mask of the circuit after a second mask and comparing the overlay shift to information about the integrated circuit in a database. The method and system includes providing a control mechanism to analyze the overlay shift and feed forward to the fabrication process before a third mask for error correction. | 09-04-2008 |
20090080763 | METHOD AND SYSTEM FOR THE VISUAL CLASSIFICATION OF DEFECTS - A method and system for the classifying of defects in a device is disclosed. The method and system comprises directly classifying samples based upon a feature space; and creating knowledge from the samples of a feature group within the feature space for a supervised classifier. Finally, the method and system includes selecting features to create a best feature group from the feature space for a particular classification of defects. A visual classifier in accordance with the present invention is utilized in three different ways to improve speed and accuracy of the classification. First, the visual classifier directly classifies data. Second, the visual classifier can help to create knowledge about the defects quickly and correctly. Third, a feature selection process is also performed by the visual classifier in accordance with the present invention. | 03-26-2009 |
20090108199 | SYSTEM AND METHOD TO DETERMINE FOCUS PARAMETERS DURING AN ELECTRON BEAM INSPECTION - This invention relates to apparatus and method to fast determine focus parameters in one pre-scan during an e-beam inspection practice. More specifically, embodiments of the present invention provide an apparatus and method that provide accurate focus tuning after primary focusing has been done. | 04-30-2009 |
20100150429 | E-BEAM DEFECT REVIEW SYSTEM - The present invention relates to a defect review system, and/or particularly, to an apparatus and method of defect review sampling, review method and classification on a semiconductor wafer or a pattern lithography reticle during integrated circuit fabrication. These objects are achieved in comparing a reviewed image with a reference image pick-up through a smart sampling filter. A clustering computer system base on high speed network will provide data cache and save operation time and memory. A smart review sampling filter automatically relocate abnormal pattern or defects and classify the device location extracted from design database and/or from golden die image on the same substrate. The column of the present defect review system is comprised of the modified SORIL type objective lens. This column provides solution of improving throughput during sample review, material identification better image quality, and topography image of defect. One embodiment of the present invent adopts an optical auto focusing system to compromise micro height variation due wafer surface topography. And another embodiment adopts surface charge control system to regulate the charge accumulation due to electron irradiation during the review process. | 06-17-2010 |
20100158317 | METHOD AND SYSTEM FOR DETERMINING A DEFECT DURING SAMPLE INSPECTION INVOLVING CHARGED PARTICLE BEAM IMAGING - A method for determining a defect during sample inspection involving charged particle beam imaging transforms a target charged particle microscopic image and its corresponding reference charged particle microscopic images each into a plurality of feature images, and then compares the feature images against each other. Each feature image captures and stresses a specific feature which is common to both the target and reference images. The feature images produced by the same operator are corresponding to each other. A distance between corresponding feature images is evaluated. Comparison between the target and reference images is made based on the evaluated distances to determine the presence of a defect within the target charged particle microscopic image. | 06-24-2010 |
20100158346 | METHOD AND SYSTEM OF CLASSIFYING DEFECTS ON A WAFER - Method of classifying the defects on a wafer having some same chips and corresponding system. After receiving images formed by scanning the wafer using a charged particle beam, these images are examined such that both defective images and defect-free images are found. Then, the defect-free images are translated into a simulated layout of the chip, or a database is used to provide the simulated layout of the chip. Finally, the defects on the defective images are classified by comparing the images with the simulated layout of the chip. The system has some modules separately corresponds to the steps of the method. | 06-24-2010 |
20100258722 | CHARGED PARTICLE BEAM IMAGING ASSEMBLY AND IMAGING METHOD THEREOF - A method for enhancing the quality of a charged particle microscopic image of a sample is disclosed. The image is formed by a charged particle beam imaging system. The method comprising: scanning, using a first scanning beam, a surface of the sample in at least one first scan line; and scanning, using a second scanning beam, the sample surface in at least one second scan line, wherein said second scanning beam is scanned across said sample surface during a time interval between the end of said first scan lines and the beginning of the next said first scan lines. Application of the proposed method as a charged particle beam imaging system is also disclosed. | 10-14-2010 |
20100278416 | Method for Inspecting Overlay Shift Defect during Semiconductor Manufacturing and Apparatus Thereof - A method of inspecting for overlay shift defects during semiconductor manufacturing is disclosed. The method can include the steps of providing a charged particle microscopic image of a sample, identifying an inspection pattern period in the charged particle microscopic image, averaging the charged particle microscopic image by using the inspection pattern period to form an averaged inspection pattern period, estimating an average width from the averaged inspection pattern period, and comparing the average width with a predefined threshold value to determine the presence of an overlay shift defect. | 11-04-2010 |
20100314539 | METHOD AND APPARATUS FOR IDENTIFYING PLUG-TO-PLUG SHORT FROM A CHARGED PARTICLE MICROSCOPIC IMAGE - A method of inspecting for plug-to-plug short (short circuit) defects on a sample is disclosed. A charged particle beam for imaging the sample is repeatedly line-scanned over the sample with a line-to-line advancement direction perpendicular to the line-scan direction. The method includes scanning the sample with a line-to-line advancement along a first and a second direction, to obtain a first and a second image of the sample, respectively. Then, the method includes identifying plug patterns, represented in the obtained images with abnormal grey levels, as abnormal plug patterns. Next, the method compares the locations of the abnormal plug patterns to determine the presence of plug-to-plug short defects on the sample. | 12-16-2010 |
20100327160 | METHOD FOR EXAMINING A SAMPLE BY USING A CHARGED PARTICLE BEAM - A method for examining a sample with a scanning charged particle beam imaging apparatus. First, an image area and a scan area are specified on a surface of the sample. Herein, the image area is entirely overlapped within the scan area. Next, the scan area is scanned by using a charged particle beam along a direction neither parallel nor perpendicular to an orientation of the scan area. It is possible that only a portion of the scan area overlapped with the image area is exposed to the charged particle beam. It also is possible that both the shape and the size of the image area are essentially similar with that of the scan area, such that the size of the area projected by the charged particle beam is almost equal to the size of the image area. | 12-30-2010 |
20120027287 | METHOD AND SYSTEM OF CLASSIFYING DEFECTS ON A WAFER - A method of classifying the defects on a wafer having some same chips and corresponding system is provided. After receiving images formed by scanning the wafer using a charged particle beam, these images are examined such that both defective images and defect-free images are found. Then, the defect-free images are translated into a simulated layout of the chip, or a database is used to provide the simulated layout of the chip. Finally, the defects on the defective images are classified by comparing the images with the simulated layout of the chip. The system has some modules separately corresponds to the steps of the method. | 02-02-2012 |
20120032076 | METHOD FOR INSPECTING EUV RETICLE AND APPARATUS THEREOF - A method of inspecting an EUV reticle is proposed, which uses an electron beam (EB) with low density and high energy to scan the surface of an EUV reticle for inspecting the EUV reticle. A step of conditioning surface charge is followed by a step of inspecting surface of the EUV reticle. The step of conditioning surface can neutralize the surface charge and the step of inspecting can obtain an image of the EUV reticle. The present invention uses a scanning electron microscope (SEM) to provide a primary electron beam for conditioning the surface charge and a focused primary electron beam for scanning the surface. | 02-09-2012 |
20120070067 | Method for Inspecting Overlay Shift Defect during Semiconductor Manufacturing and Apparatus Thereof - A method for inspecting overlay shift defect during semiconductor manufacturing is disclosed herein and includes a step for providing a charged particle microscopic image of a sample, a step for identifying an inspection pattern measure in the charged particle microscopic image, a step for averaging the charged particle microscopic image by using the inspection pattern measure to form an averaged inspection pattern measure, a step for estimating an average width from the averaged inspection pattern measure, and a step for comparing the average width with a predefined threshold value to determine the presence of the overlay shift defect. | 03-22-2012 |
20120212601 | METHOD AND SYSTEM FOR MEASURING CRITICAL DIMENSION AND MONITORING FABRICATION UNIFORMITY - A method for measuring critical dimension (CD) includes steps of: scanning at least one area of interest of a die to obtain at least one scanned image; aligning the scanned image to at least one designed layout pattern to identify a plurality of borders within the scanned image; and averaging distances each measured from the border or the plurality of borders of a pattern associated with a specific type of CD corresponding to the designed layout pattern to obtain a value of CD of the die. The value of critical dimensions of dies can be obtained from the scanned image with lower resolution which is obtained by relatively higher scanning speed, so the above-mentioned method can obtain value of CD for every die within entire wafer to monitor the uniformity of the semiconductor manufacturing process within an acceptable inspection time. | 08-23-2012 |
20120228494 | METHOD FOR INSPECTING EUV RETICLE AND APPARATUS THEREOF - A method of inspecting an EUV reticle is proposed, which uses an original design layout information to align the plurality of patterns on an image, which is got by scanning the surface of an EUV reticle, such that the defect can be identified and classified according to the aligned patterns. In the scanning process, a step of conditioning surface charge is followed by a step of inspecting surface of the EUV reticle wherein the step of conditioning surface can neutralize the surface charge and the step of inspecting can obtain an image of the EUV reticle. The method of inspecting an EUV reticle also tuning a retarding electrode to attract more secondary electrons such that the greylevels of different patterns may be shown and the defect can be identified and classified. | 09-13-2012 |
20120273678 | METHOD FOR EXAMINING A SAMPLE BY USING A CHARGED PARTICLE BEAM - A method for examining a sample with a scanning charged particle beam imaging apparatus. First, an image area and a scan area are specified on a surface of the sample. Herein, the image area is entirely overlapped within the scan area. Next, the scan area is scanned by using a charged particle beam along a direction neither parallel nor perpendicular to an orientation of the scan area. It is possible that only a portion of the scan area overlapped with the image area is exposed to the charged particle beam. It also is possible that both the shape and the size of the image area are essentially similar with that of the scan area, such that the size of the area projected by the charged particle beam is almost equal to the size of the image area. | 11-01-2012 |
20130182939 | METHOD AND SYSTEM FOR MEASURING CRITICAL DIMENSION AND MONITORING FABRICATION UNIFORMITY - A method for measuring critical dimension (CD) includes steps of: scanning at least one area of interest of a die to obtain at least one scanned image; aligning the scanned image to at least one designed layout pattern to identify a plurality of borders within the scanned image; and averaging distances each measured from the border or the plurality of borders of a pattern associated with a specific type of CD corresponding to the designed layout pattern to obtain a value of CD of the die. The value of critical dimensions of dies can be obtained from the scanned image with lower resolution which is obtained by relatively higher scanning speed, so the above-mentioned method can obtain value of CD for every die within entire wafer to monitor the uniformity of the semiconductor manufacturing process within an acceptable inspection time. | 07-18-2013 |
20130188037 | METHOD AND SYSTEM FOR MEASURING CRITICAL DIMENSION AND MONITORING FABRICATION UNIFORMITY - A method for measuring critical dimension (CD) includes steps of: scanning at least one area of interest of a die to obtain at least one scanned image; aligning the scanned image to at least one designed layout pattern to identify a plurality of borders within the scanned image; and averaging distances each measured from the border or the plurality of borders of a pattern associated with a specific type of CD corresponding to the designed layout pattern to obtain a value of CD of the die. The value of critical dimensions of dies can be obtained from the scanned image with lower resolution which is obtained by relatively higher scanning speed, so the above-mentioned method can obtain value of CD for every die within entire wafer to monitor the uniformity of the semiconductor manufacturing process within an acceptable inspection time. | 07-25-2013 |
20130202186 | METHOD AND SYSTEM FOR MEASURING CRITICAL DIMENSION AND MONITORING FABRICATION UNIFORMITY - A method for measuring critical dimension (CD) includes steps of: scanning at least one area of interest of a die to obtain at least one scanned image; aligning the scanned image to at least one designed layout pattern to identify a plurality of borders within the scanned image; and averaging distances each measured from the border or the plurality of borders of a pattern associated with a specific type of CD corresponding to the designed layout pattern to obtain a value of CD of the die. The value of critical dimensions of dies can be obtained from the scanned image with lower resolution which is obtained by relatively higher scanning speed, so the above-mentioned method can obtain value of CD for every die within entire wafer to monitor the uniformity of the semiconductor manufacturing process within an acceptable inspection time. | 08-08-2013 |
20140321730 | METHOD AND SYSTEM OF CLASSIFYING DEFECTS ON A WAFER - A method of classifying the defects on a wafer having some same chips and corresponding system is provided. After receiving images formed by scanning the wafer using a charged particle beam, these images are examined such that both defective images and defect-free images are found. Then, the defect-free images are translated into a simulated layout of the chip, or a database is used to provide the simulated layout of the chip. Finally, the defects on the defective images are classified by comparing the images with the simulated layout of the chip. The system has some modules separately corresponds to the steps of the method. | 10-30-2014 |
20150069232 | Hot Spot Identification, Inspection, and Review - A method for identifying, inspecting, and reviewing all hot spots on a specimen is disclosed by using at least one SORIL e-beam tool. A full die on a semiconductor wafer is scanned by using a first identification recipe to obtain a full die image of that die and then design layout data is aligned and compared with the full die image to identify hot spots on the full die. Threshold levels used to identify hot spots can be varied and depend on the background environments close thereto, materials of the specimens, defect types, and design layout data. A second recipe is used to selectively inspect locations of all hot spots to identify killers, and then killers can be reviewed with a third recipe. | 03-12-2015 |