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Beamline notes: Difference between revisions
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* Taiwanese synchrotron (ADSC Q315R, SN 930), 2015 : ROTATION_AXIS=1 0 0 whereas in 2010 it was -1 0 0 | * Taiwanese synchrotron (ADSC Q315R, SN 930), 2015 : ROTATION_AXIS=1 0 0 whereas in 2010 it was -1 0 0 | ||
* BM14 (ESRF; Mar CCD, as of April 2014) has X and Y reversed in the header. Generate_XDS.INP does not currently implement this reversal; it has to be done manually. | * BM14 (ESRF; Mar CCD, as of April 2014) has X and Y reversed in the header. [[Generate_XDS.INP]] does not currently implement this reversal; it has to be done manually. | ||
* Diamond ID24 recently moved from horizontal to vertical spindle for cryo data collection. If the CBF header has # Chi 0.0000 deg. and # Chi_increment 0.0000 deg. and # Oscillation_axis X.CW +SLOW then one needs ROTATION_AXIS=0 -1 0 . Maybe enough to check for "Detector: PILATUS3 6M, S/N 60-0119" | * Diamond ID24 recently moved from horizontal to vertical spindle for cryo data collection. If the CBF header has # Chi 0.0000 deg. and # Chi_increment 0.0000 deg. and # Oscillation_axis X.CW +SLOW then one needs ROTATION_AXIS=0 -1 0 . Maybe enough to check for "Detector: PILATUS3 6M, S/N 60-0119" | ||
* PETRA P14 also needs ROTATION_AXIS=0 -1 0 | * PETRA P14 also needs ROTATION_AXIS=0 -1 0 | ||
* ALS 8.2.2 recent (Nov 2015) evidence indicates that the same beam center convention is used as for ESRF, PF, APS Argonne BLs. | * ALS 8.2.2 recent (Nov 2015) evidence indicates that the same beam center convention is used as for ESRF, PF, APS Argonne BLs. | ||