Could not load branches. Could not load tags. Latest commit. Git stats commits. Failed to load latest commit information. View code. MIT License. Notch down, or as scanned. Define if a title will or will not be shown on the map. The title contains lot id, wafer id, step id and slot number. Define which field in the defect list of the klarf file to color the defects by. The colors, shapes and sizes of the defects are defined in an editable text file. Note: coloring by defect size bins is not supported yet.
Define if a legend will or will not be displayed. The legend will only be displayed if defects are colored by any of the fields. Full control over wafer and die line width, type and color. Option 2: Run using the kv. Figure 1: Example of a patterned wafer map. Figure 2: Example of a patterned wafer map. Figure 3: Example of a unpatterned wafer map. Figure 4: Example of a unpatterned wafer map. Figure 5: Defects colored by cluster number.
Figure 6: Defects colored by cluster number. Figure 7: Defects colored by class number. Figure 8: Defects colored by class number. The fields in this file are: Number: A unique number for each row. Not used by the program. For reference only. Ignore: Put any character here for the program to ignore the row. Group: The name of the column of data to be used for coloring. The names correspond exactly to how they are listed in the klarf file. Value: The value of the parameter.
Example: class codes 0, 1, 2, etc. Type: The point type to be used for this value. Point types are documented in the Gnuplot manual. Color: The point color to be used for this value. Point colors are documented in the Gnuplot manual.
Size: The point size to be used for this value. Point sizes are documented in the Gnuplot manual. Figure Gnuplot point types and their numbers. You can also change the manually-defined sizebins. The upper limit for each bin range is separated by commas. The lowest value on the left is the min size for the first bin inclusive. The details on all the options will be covered later.
Save the settings for the shortcut. Run the shortcut on your klarf files. These are the run-time parameters. Here is a description of all the parameters and their options. This file will be read before the other run-time parameters are applied. You will generally not need to use this parameter.
The default is 0 defects all klarfs. The default is defects. The default is 1 gigabyte. Leaving any variable out will leave that data out of the filename. Any combination of valid paths and wildcards are acceptable.
This is how you can use KlarfView to automatically generate defect maps. This places the legend outside the plot area, at the bottom, centered, and lists the values horizontally. Decimals can be used. Any valid 6-character hexadecimal color code can be used. Any valid 6-character hex-dec color code can be used. The max number of bins is limited by the number of definitions you have in the plotoptions file "colorbysettings.
The value should correspond to the field name in the klarf file. Default is Default is 1. You can edit this file using OpenOffice Calc or Excel. Just be sure to save it as a tab-delimited text file. A spreadsheet view of this file is below. The columns are defined as the following: Number This is just an index number to sort and put the list in order.
The program does not use this column. Any character in the cell sets the flag for the program to ignore the entire row. It is critical that you assign the group name, and do it correctly. Otherwise, all defects will be plotted as black dots default.
This is case insensitive. The exception to this rule are defect sizes. All size groups are defined using the settings as defined in the previous section. Defect size data ignores this column. Type This sets the symbol type for each defect. The symbols are defined as they would be defined in gnuplot. The entire list of symbols are listed in the diagram in the section GnuPlot Point Symbols. Color This sets the color for each defect. The colors are defined as they would be defined in gnuplot.
The colors are discussed in the section GnuPlot Color Codes. Size This sets the point size for each defect. The larger the number, the larger the point size.
Decimal numbers can be used. But, if you use the 6-character hexadecimal color codes, you can use the full spectrum of all colors defined in the hexadecimal color space, which is quite extensive.
The hexadecimal codes can be found on any web site that discusses HTML hexadecimal colors. Here is a short list of color codes supported by gnuplot. This list does not represent all possible codes. All line colors are set using the colors described in the section GnuPlot Color Codes. Angela Adams Dec. No problem. Haowei Tang Aug.
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