Difference between revisions of "L498 Thermolysin"
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bjobs lists all your batch jobs; use this form for more information including other-user load: | bjobs lists all your batch jobs; use this form for more information including other-user load: | ||
bjobs -w -u all -q psanacsq | bjobs -w -u all -q psanacsq | ||
| + | bkill [number] # stops unwanted job | ||
Some runs take up to 2 hrs wall time to average. Find the averages, view the max-composites, and list out header information: | Some runs take up to 2 hrs wall time to average. Find the averages, view the max-composites, and list out header information: | ||
| Line 170: | Line 171: | ||
=Prepare to mask out the untrusted pixels= | =Prepare to mask out the untrusted pixels= | ||
| + | We'll now calculate dark-subtracted averages. | ||
| + | for m in 17 18 19 20 21 22 23 24 25 26 27; \ | ||
| + | do echo $m; cxi.lsf -c ~/myrelease/cxi84914/mkavg_e157.cfg \ | ||
| + | -o /reg/d/psdm/cxi/cxi84914/scratch/$USER/averages/e157/ \ | ||
| + | -i /reg/d/psdm/cxi/cxi84914/xtc/e157 -q psanacsq -s -p 8 -x 157 -r ${m} -t 0; done | ||
| + | |||
| + | This repeats exactly the same averaging calculations as before, except the dark average from run 31 is subtracted. | ||
| + | The dark image to be subtracted (along with its std deviation) is defined in the configuration file [[mkavg_e157.cfg]]. | ||
| + | |||
=Correct the detector metrology= | =Correct the detector metrology= | ||
=Integrate the data= | =Integrate the data= | ||
=Merge the data= | =Merge the data= | ||
=Solve the structure= | =Solve the structure= | ||
Revision as of 19:43, 19 August 2014
In this tutorial, we assume that we are handed an SFX dataset containing thermolysin diffraction, but are not told anything else. We will have to go through all the data runs, figure out which one is to be used for dark subtraction, and account for untrusted pixels and detector metrology. At this point, we will be prepared to integrate and merge the data. Finally, we will perform simple molecular replacement and ask whether there is any Zn signal in the anomalous difference Fourier.
Contents
Discovery of data collection parameters
Log in to pslogin.slac.stanford.edu, and then to psana. Carry through flags so that X-windows will work
ssh -YAC $USER@pslogin.slac.stanford.edu ssh -YAC psana
Go in to the working directory and source the package manager:
cd ~/myrelease sit_setup
Create a subdirectory for the 2014 tutorial files if not already done:
mkdir -p cxi84914
List out the thermolysin XTC files:
ls /reg/d/psdm/cxi/cxi84914/xtc/e157
Notice that there are numerous runs in the directory. Now we will create composite averages for each run. Grab this configuration file: mkdark.cfg and put it in your cxi84914 directory. For one run only:
cxi.lsf -c ~/myrelease/cxi84914/mkdark.cfg \ -o /reg/d/psdm/cxi/cxi84914/scratch/$USER/initial_dark/e157/ \ -i /reg/d/psdm/cxi/cxi84914/xtc/e157 -q psanacsq -s -p 8 -x 157 -r 16 -t 0
Take note:
- -c configuration file
- -o output directory (will be created)
- -i input files (directory containing the XTC streams)
- -q which batch queue to use
- -s funnel all streams for the run into one node (takes longer, but necessary for averaging)
- -p number of cores to use on the node
- -x which experiment number
- -r which run number
- -t which processing trial (auto increments from 0 if not given)
For all the runs in the thermolysin data set:
kinit
aklog
for m in 16 17 18 19 20 21 22 23 24 25 26 27 31 71 72 73; \
do echo $m; cxi.lsf -c ~/myrelease/cxi84914/mkdark.cfg \
-o /reg/d/psdm/cxi/cxi84914/scratch/$USER/initial_dark/e157/ \
-i /reg/d/psdm/cxi/cxi84914/xtc/e157 -q psanacsq -s -p 8 -x 157 -r ${m} -t 0; done
bjobs lists all your batch jobs; use this form for more information including other-user load:
bjobs -w -u all -q psanacsq bkill [number] # stops unwanted job
Some runs take up to 2 hrs wall time to average. Find the averages, view the max-composites, and list out header information:
ls /reg/d/psdm/cxi/cxi84914/scratch/$USER/initial_dark/e157/r*/000/out/*.pickle cctbx.image_viewer `find /reg/d/psdm/cxi/cxi84914/scratch/$USER/initial_dark/e157/r*/000 -name "max*.pickle"` for m in `find /reg/d/psdm/cxi/cxi84914/scratch/$USER/initial_dark/e157/r*/000 -name "max*.pickle"`; do echo $m; cxi.print_pickle $m; echo; done
Let's make a table of the results:
| Run | Distance | Wavelength | Diffraction | Comments |
| 16 | 271.0 | 1.2686 | weak powder | |
| 17 | 221.0 | 1.2686 | weak powder | |
| 18 | 221.0 | 1.2686 | weak powder | |
| 19 | 221.0 | 1.2686 | weak powder | |
| 20 | 221.0 | 1.2686 | strong powder | |
| 21 | 171.0 | 1.2686 | strong powder | shadow |
| 22 | 171.0 | 1.2686 | strong powder | shadow |
| 23 | 171.0 | 1.2686 | strong powder | shadow |
| 24 | 171.0 | 1.2686 | strong powder | shadow |
| 25 | 171.0 | 1.2686 | strong powder | shadow |
| 26 | 171.0 | 1.2686 | strong powder | shadow |
| 27 | 171.0 | 1.2686 | strong powder | shadow |
| 31 | 570.9 | 1.2686 | Dark | |
| 71 | 271.0 | 1.2966 | weak powder | |
| 72 | 131.0 | 1.2966 | weak powder | shadow |
| 73 | 131 | 1.2966 | strong powder | shadow |
Some conclusions:
- Run 31 was the dark run. We'll use the average and standard deviation for further processing. Tutorial students can take result from the instructor's directory:
/reg/d/psdm/cxi/cxi84914/scratch/nksauter/initial_dark/e157/r0031/000/out/avg-r0031.pickle /reg/d/psdm/cxi/cxi84914/scratch/nksauter/initial_dark/e157/r0031/000/out/stddev-r0031.pickle
- We are interested in getting the Zn anomalous signal from thermolysin, therefore we'll discard runs 71-73 collected at 1.2966 Angstroms, lower energy than the Zn K-edge at 9659 eV or 1.2836 Angstroms. See the X-ray handbook.
- We'll also discard run 16 as the diffraction was relatively weak and the unique detector distance would require separate detector calibration.
- We'll accept runs 17-20 ("calibration17"), and runs 21-27 ("calibration21").
Prepare to mask out the untrusted pixels
We'll now calculate dark-subtracted averages.
for m in 17 18 19 20 21 22 23 24 25 26 27; \
do echo $m; cxi.lsf -c ~/myrelease/cxi84914/mkavg_e157.cfg \
-o /reg/d/psdm/cxi/cxi84914/scratch/$USER/averages/e157/ \
-i /reg/d/psdm/cxi/cxi84914/xtc/e157 -q psanacsq -s -p 8 -x 157 -r ${m} -t 0; done
This repeats exactly the same averaging calculations as before, except the dark average from run 31 is subtracted. The dark image to be subtracted (along with its std deviation) is defined in the configuration file mkavg_e157.cfg.
