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Xdscc12: Difference between revisions
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XDSCC12 is a program for generating [[CC1/2|delta-CC<sub>1/2</sub>]] and delta-CC<sub>1/2-ano</sub> values for XDS_ASCII.HKL (written by [[XDS]]), or for XSCALE.HKL (written by [[XSCALE]]) containing data from several files of type XDS_ASCII.HKL after scaling (with MERGE=FALSE). | XDSCC12 is a program for generating [[CC1/2|delta-CC<sub>1/2</sub>]] and delta-CC<sub>1/2-ano</sub> values for XDS_ASCII.HKL (written by [[XDS]]), or for XSCALE.HKL (written by [[XSCALE]]) containing data from several files of type XDS_ASCII.HKL after scaling (with MERGE=FALSE). | ||
It implements the method described in Assmann, Brehm and Diederichs (2016) Identification of rogue datasets in serial crystallography. J. Appl. Cryst. 49, 1021 [http://journals.iucr.org/j/issues/2016/03/00/zw5005/zw5005.pdf], and it does this not only for the individual datasets in XSCALE.HKL, but also for individual frames, or groups of frames, of a single dataset collected with the rotation method and processed by [[XDS]]. | It implements the method described in Assmann, Brehm and Diederichs (2016) Identification of rogue datasets in serial crystallography. J. Appl. Cryst. 49, 1021 [http://journals.iucr.org/j/issues/2016/03/00/zw5005/zw5005.pdf], and it does this not only for the individual datasets in XSCALE.HKL, but also for individual frames, or groups (batches) of frames, of a single dataset collected with the rotation method and processed by [[XDS]]. | ||
The program can be downloaded for [https://{{SERVERNAME}}/pub/linux_bin/xdscc12 Linux] or [https://{{SERVERNAME}}/pub/mac_bin/xdscc12 Mac]. | The program can be downloaded for [https://{{SERVERNAME}}/pub/linux_bin/xdscc12 Linux] or [https://{{SERVERNAME}}/pub/mac_bin/xdscc12 Mac]. | ||
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If XDSCC12 is used with a XSCALE.HKL generated from multiple datasets, the output lines show the contribution of each dataset toward the total CC<sub>1/2</sub>. In this case, the program writes a file called XSCALE.INP.rename_me which shows statistics of delta-CC<sub>1/2</sub> and delta-CC<sub>1/2-ano</sub> values, and has a sorted enumeration of the INPUT_FILEs - the first of these provides the best data set, and the last one is the worst one. This XSCALE.INP.rename_me can then be edited (i.e. for deleting a few data sets with very negative delta-CC<sub>1/2</sub>), and renamed to XSCALE.INP. | If XDSCC12 is used with a XSCALE.HKL generated from multiple datasets, the output lines show the contribution of each dataset toward the total CC<sub>1/2</sub>. In this case, the program writes a file called XSCALE.INP.rename_me which shows statistics of delta-CC<sub>1/2</sub> and delta-CC<sub>1/2-ano</sub> values, and has a sorted enumeration of the INPUT_FILEs - the first of these provides the best data set, and the last one is the worst one. This XSCALE.INP.rename_me can then be edited (i.e. for deleting a few data sets with very negative delta-CC<sub>1/2</sub>), and renamed to XSCALE.INP. | ||
Overall statistics are reported in the lines starting with <code>a</code> and <code>d</code> for | |||
* <b>only</b> those unique reflections that are actually present in the batch of frame / batch / dataset. These values are in columns 3-6. | |||
* <b>all</b> unique reflections of the merged dataset (but a frame / batch / dataset may not have all unique reflections, so the "all" values report the mean influence). These values are in columns 7-10. | |||
Typically, it is sensible to disregard the "all" values, and to base decisions on the "only" values, because the latter are not affected by the number of reflections of the particular frame / batch / dataset. The words "all" and "only" are used in this sense throughout the terminal and file output of XDSCC12. | |||
To find out about the influence of the ''a'' and ''b'' parameters of the XDS/XSCALE-adjusted error model, you may try the <code>-w</code> option; this assigns the same sigma to all reflections. Likewise, the [https://en.wikipedia.org/wiki/Fisher_transformation Fisher transformation], which serves to make changes in CC<sub>1/2</sub> comparable across resolution ranges, may be switched off for testing purposes, with the -z option. | Statistics for "only" the unique reflections of a frame / batch/ dataset are given in resolution shells for the isomorphous (in lines starting with <code>b</code> and <code>c</code>) and the anomalous signal (in lines starting with <code>d</code> and <code>e</code>). In case of [[SSX]] data (which have few reflections per data set, compared to complete data sets), we typically use <code>-nbin 1</code> as option, to define only a single resolution shell. | ||
To find out about the influence of the ''a'' and ''b'' parameters of the XDS/XSCALE-adjusted error model, you may try the <code>-w</code> option; this assigns the same sigma to all reflections. Likewise, the [https://en.wikipedia.org/wiki/Fisher_transformation Fisher transformation], which serves to make changes in CC<sub>1/2</sub> comparable across resolution ranges, may be switched off for testing purposes, with the <code>-z</code> option. | |||
== Example output == | == Example output == | ||