Patent application number | Description | Published |
20080219545 | METHODS FOR IDENTIFYING ARRAY AREAS IN DIES FORMED ON A WAFER AND METHODS FOR SETTING UP SUCH METHODS - Methods for identifying array areas in dies formed on a wafer and methods for setting up such methods are provided. One method for identifying array areas in dies formed on a wafer includes comparing an array pattern in a template image acquired in one of the array areas to a search area image acquired for the wafer. The method also includes determining areas in the search area image in which a pattern is formed that substantially matches the array pattern in the template image based on results of the comparing step. In addition, the method includes identifying the array areas in the dies formed on the wafer based on results of the determining step. | 09-11-2008 |
20090037134 | SEMICONDUCTOR DEVICE PROPERTY EXTRACTION, GENERATION, VISUALIZATION, AND MONITORING METHODS - Various methods, carrier media, and systems for monitoring a characteristic of a specimen are provided. One computer-implemented method for monitoring a characteristic of a specimen includes determining a property of individual pixels on the specimen using output generated by inspecting the specimen with an inspection system. The method also includes determining a characteristic of individual regions on the specimen using the properties of the individual pixels in the individual regions. The method further includes monitoring the characteristic of the specimen based on the characteristics of the individual regions. | 02-05-2009 |
20090041332 | METHODS FOR GENERATING A STANDARD REFERENCE DIE FOR USE IN A DIE TO STANDARD REFERENCE DIE INSPECTION AND METHODS FOR INSPECTING A WAFER - Methods for generating a standard reference die for use in a die to standard reference die inspection and methods for inspecting a wafer are provided. One computer-implemented method for generating a standard reference die for use in a die to standard reference die inspection includes acquiring output of an inspection system for a centrally located die on a wafer and one or more dies located on the wafer. The method also includes combining the output for the centrally located die and the one or more dies based on within die positions of the output. In addition, the method includes generating the standard reference die based on results of the combining step. | 02-12-2009 |
20090284733 | COMPUTER-IMPLEMENTED METHODS, CARRIER MEDIA, AND SYSTEMS FOR SELECTING POLARIZATION SETTINGS FOR AN INSPECTION SYSTEM - Computer-implemented methods, carrier media, and systems for selecting polarization settings for an inspection system for inspection of a layer of a wafer are provided. One method includes detecting a population of defects on the layer of the wafer using results of each of two or more scans of the wafer performed with different combinations of polarization settings of the inspection system for illumination and collection of light scattered from the wafer. The method also includes identifying a subpopulation of the defects for each of the different combinations, each of which includes the defects that are common to at least two of the different combinations, and determining a characteristic of a measure of signal-to-noise for each of the subpopulations. The method further includes selecting the polarization settings for the illumination and the collection to be used for the inspection corresponding to the subpopulation having the best value for the characteristic. | 11-19-2009 |
20100188657 | SYSTEMS AND METHODS FOR DETECTING DEFECTS ON A WAFER - Systems and methods for detecting defects on a wafer are provided. One method includes generating output for a wafer by scanning the wafer with an inspection system using first and second optical states of the inspection system. The first and second optical states are defined by different values for at least one optical parameter of the inspection system. The method also includes generating first image data for the wafer using the output generated using the first optical state and second image data for the wafer using the output generated using the second optical state. In addition, the method includes combining the first image data and the second image data corresponding to substantially the same locations on the wafer thereby creating additional image data for the wafer. The method further includes detecting defects on the wafer using the additional image data. | 07-29-2010 |
20100329540 | METHODS FOR GENERATING A STANDARD REFERENCE DIE FOR USE IN A DIE TO STANDARD REFERENCE DIE INSPECTION AND METHODS FOR INSPECTING A WAFER - Methods for generating a standard reference die for use in a die to standard reference die inspection and methods for inspecting a wafer are provided. One computer-implemented method for generating a standard reference die for use in a die to standard reference die inspection includes acquiring output of an inspection system for a centrally located die on a wafer and one or more dies located on the wafer. The method also includes combining the output for the centrally located die and the one or more dies based on within die positions of the output. In addition, the method includes generating the standard reference die based on results of the combining step. | 12-30-2010 |
20120268735 | Systems and Methods for Detecting Defects on a Wafer - Systems and methods for detecting defects on a wafer are provided. One method includes generating output for a wafer by scanning the wafer with an inspection system using first and second optical states of the inspection system. The first and second optical states are defined by different values for at least one optical parameter of the inspection system. The method also includes generating first image data for the wafer using the output generated using the first optical state and second image data for the wafer using the output generated using the second optical state. In addition, the method includes combining the first image data and the second image data corresponding to substantially the same locations on the wafer thereby creating additional image data for the wafer. The method further includes detecting defects on the wafer using the additional image data. | 10-25-2012 |
20130035876 | DETECTING DEFECTS ON A WAFER - Methods and systems for detecting defects on a wafer are provided. | 02-07-2013 |
20130250287 | Systems and Methods for Detecting Defects on a Wafer - Systems and methods for detecting defects on a wafer are provided. One method includes generating output for a wafer by scanning the wafer with an inspection system using first and second optical states of the inspection system. The first and second optical states are defined by different values for at least one optical parameter of the inspection system. The method also includes generating first image data for the wafer using the output generated using the first optical state and second image data for the wafer using the output generated using the second optical state. In addition, the method includes combining the first image data and the second image data corresponding to substantially the same locations on the wafer thereby creating additional image data for the wafer. The method further includes detecting defects on the wafer using the additional image data. | 09-26-2013 |
20140153814 | Method and System for Mixed Mode Wafer Inspection - Mixed-mode includes receiving inspection results including one or more images of a selected region of the wafer, the one or more images include one or more wafer die including a set of repeating blocks, the set of repeating blocks a set of repeating cells. In addition, mixed-mode inspection includes adjusting a pixel size of the one or more images to map each cell, block and die to an integer number of pixels. Further, mixed-mode inspection includes comparing a first wafer die to a second wafer die to identify an occurrence of one or more defects in the first or second wafer die, comparing a first block to a second block to identify an occurrence of one or more defects in the first or second blocks and comparing a first cell to a second cell to identify an occurrence of one or more defects in the first or second cells. | 06-05-2014 |