Bruker data: Difference between revisions
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XDS wants "unwarped" Bruker frames. Unwarping can be done within Proteum2. | |||
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Revision as of 19:02, 30 January 2012
XDS wants "unwarped" Bruker frames. Unwarping can be done within Proteum2.
!***************************************************************************** ! Example file XDS.INP for Platinum135 CCD detector ! QX and QY are guesses only !***************************************************************************** !====================== JOB CONTROL PARAMETERS =============================== !JOB= XYCORR INIT COLSPOT IDXREF DEFPIX XPLAN INTEGRATE CORRECT JOB= XYCORR INIT COLSPOT IDXREF DEFPIX INTEGRATE CORRECT DATA_RANGE=1 60 !Numbers of first and last data image collected DETECTOR=SMARTCCD MINIMUM_VALID_PIXEL_VALUE=1 OVERLOAD=1000000 TRUSTED_REGION=0.0 1.5 !Relative radii limiting trusted detector region !UNTRUSTED_ELLIPSE=1184 1289 1218 1322 ! ellipse enclosed by X1 X2 Y1 Y2 !UNTRUSTED_RECTANGLE= 487 495 0 2528 ! rectangle enclosed by X1 X2 Y1 Y2 !UNTRUSTED_QUADRILATERAL=565 574 1519 1552 1508 1533 566 1536 !File name, access, and format of brass plate image ! BRASS_PLATE_IMAGE= ../images/spatial50_Still.sfrm BRUKER DIRECT !HOLE_DISTANCE=2.54 MXHOLE=1369 MNHOLE=800 !MAXIMUM_NUMBER_OF_JOBS=4 !Speeds-up COLSPOT & INTEGRATE on a Linux-cluster !MAXIMUM_NUMBER_OF_PROCESSORS= 4!<33;ignored by single cpu version of xds !SECONDS=0 !Maximum number of seconds to wait until data image must appear !TEST=1 !Test flag. 1,2 additional diagnostics and images !NX=number of fast pixels (along X); QX=length of an X-pixel (mm) !NY=number of slow pixels (along Y); QY=length of a Y-pixel (mm) !NX=1024 NY=1024 QX=0.089 QY=0.089 !Bruker SMART6000 CCD-detector !NX=2048 NY=2048 QX=0.1785 QY=0.1785 !Bruker SMART CCD-detector NX=1024 NY=1024 !Bruker SMART6000 CCD-detector ! QX=0.0731 QY=0.0731 ! special to bypass problems with spatial corrections QX=0.08984375 QY=0.08984375 ! may be correct !====================== GEOMETRICAL PARAMETERS =============================== !ORGX and ORGY are often close to the image center, i.e. ORGX=NX/2, ORGY=NY/2 ORGX= 526 ORGY= 550 !Detector origin (pixels). DETECTOR_DISTANCE= 50.0 !(mm) !DIRECTION_OF_DETECTOR_X-AXIS=cos(2theta),0,sin(2theta) DIRECTION_OF_DETECTOR_X-AXIS= 1.000000 0.000000 0.000000 DIRECTION_OF_DETECTOR_Y-AXIS= 0.000000 1.000000 0.000000 ROTATION_AXIS= 0.0 1.0 0.0 !SMARTCCD detector at BASF Ludwigshafen !ROTATION_AXIS= 0.0 -1.0 0.0 !SMART6000 at Goettingen !ROTATION_AXIS= -0.8165 -0.5773 0.0 !-sin(kappa) -cos(kappa)*cos(omega) sin( omega) !ROTATION_AXIS= -0.58 -0.81 0.0 !ROTATION_AXIS= -0.552453 -0.833405 0 OSCILLATION_RANGE=1.0 !degrees (>0) X-RAY_WAVELENGTH=1.54184 !Angstroem INCIDENT_BEAM_DIRECTION= 0.0 0.0 1.0 ! from xstal to detector !FRACTION_OF_POLARIZATION=0.95 !default=0.5 for unpolarized beam;0.90 at DESY; POLARIZATION_PLANE_NORMAL= 1.0 0.0 0.0 !AIR=0.001 !Air absorption coefficient of x-rays as computed by XDS !======================= CRYSTAL PARAMETERS ================================= SPACE_GROUP_NUMBER=0 !0 for unknown crystals; cell constants are ignored. UNIT_CELL_CONSTANTS= 79.0 79.0 79.0 90.0 90.0 90.0 ! You may specify here the x,y,z components for the unit cell vectors if ! known from a previous run using the same crystal in the same orientation !UNIT_CELL_A-AXIS= !UNIT_CELL_B-AXIS= !UNIT_CELL_C-AXIS= !Optional reindexing transformation to apply on reflection indices !REIDX= -1 0 -1 0 -1 -1 0 0 0 1 1 0 !FRIEDEL'S_LAW=FALSE !Default is TRUE. !REFERENCE_DATA_SET= CK.HKL !Name of a reference data set (optional) !==================== SELECTION OF DATA IMAGES ============================== !Generic file name, access, and format of data images NAME_TEMPLATE_OF_DATA_FRAMES=images/lysozyme_minute_01_????.sfrm ! BRUKER ! BACKGROUND_RANGE=1 6 !Numbers of first and last data image for background !SPOT_RANGE= 1 10 !First and last data image number for finding spots !SPOT_RANGE=201 300 !SPOT_RANGE=401 500 !==================== DATA COLLECTION STRATEGY (XPLAN) ====================== ! !!! Warning !!! ! If you processed your data for a crystal with unknown cell constants and ! space group symmetry, XPLAN will report the results for space group P1. !STARTING_ANGLE=177.0 STARTING_FRAME=1 !used to define the angular origin about the rotation axis. !Default: STARTING_ANGLE= 0 at STARTING_FRAME=first data image !RESOLUTION_SHELLS=10 6 5 4 3 2 1.5 1.3 1.2 !STARTING_ANGLES_OF_SPINDLE_ROTATION= 0 180 10 !TOTAL_SPINDLE_ROTATION_RANGES=30.0 120 15 !====================== INDEXING PARAMETERS ================================= !Never forget to check this, since the default 0 0 0 is almost always correct! !INDEX_ORIGIN= 0 0 0 ! used by "IDXREF" to add an index offset !Additional parameters for fine tuning that rarely need to be changed !INDEX_ERROR=0.05 INDEX_MAGNITUDE=8 INDEX_QUALITY=0.8 !SEPMIN=6.0 CLUSTER_RADIUS=3 !MAXIMUM_ERROR_OF_SPOT_POSITION=3.0 !MAXIMUM_ERROR_OF_SPINDLE_POSITION=2.0 !MINIMUM_FRACTION_OF_INDEXED_SPOTS=0.5 !============== DECISION CONSTANTS FOR FINDING CRYSTAL SYMMETRY ============= !Decision constants for detection of lattice symmetry (IDXREF, CORRECT) MAX_CELL_AXIS_ERROR=0.03 ! Maximum relative error in cell axes tolerated MAX_CELL_ANGLE_ERROR=2.0 ! Maximum cell angle error tolerated !Decision constants for detection of space group symmetry (CORRECT). !Resolution range for accepting reflections for space group determination in !the CORRECT step. It should cover a sufficient number of strong reflections. TEST_RESOLUTION_RANGE=8.0 4.5 MIN_RFL_Rmeas= 50 ! Minimum #reflections needed for calculation of Rmeas MAX_FAC_Rmeas=2.0 ! Sets an upper limit for acceptable Rmeas !================= PARAMETERS CONTROLLING REFINEMENTS ======================= !REFINE(IDXREF)=BEAM AXIS ORIENTATION CELL !DISTANCE REFINE(INTEGRATE)= AXIS ! DISTANCE CELL ORIENTATION BEAM !REFINE(CORRECT)=DISTANCE BEAM ORIENTATION CELL AXIS !================== CRITERIA FOR ACCEPTING REFLECTIONS ====================== VALUE_RANGE_FOR_TRUSTED_DETECTOR_PIXELS= 6000 30000 !Used by DEFPIX !for excluding shaded parts of the detector. INCLUDE_RESOLUTION_RANGE=50.0 0.0 !Angstroem; used by DEFPIX,INTEGRATE,CORRECT !used by CORRECT to exclude ice-reflections !EXCLUDE_RESOLUTION_RANGE= 3.93 3.87 !ice-ring at 3.897 Angstrom !EXCLUDE_RESOLUTION_RANGE= 3.70 3.64 !ice-ring at 3.669 Angstrom !EXCLUDE_RESOLUTION_RANGE= 3.47 3.41 !ice-ring at 3.441 Angstrom !EXCLUDE_RESOLUTION_RANGE= 2.70 2.64 !ice-ring at 2.671 Angstrom !EXCLUDE_RESOLUTION_RANGE= 2.28 2.22 !ice-ring at 2.249 Angstrom !EXCLUDE_RESOLUTION_RANGE= 2.102 2.042 !ice-ring at 2.072 Angstrom - strong !EXCLUDE_RESOLUTION_RANGE= 1.978 1.918 !ice-ring at 1.948 Angstrom - weak !EXCLUDE_RESOLUTION_RANGE= 1.948 1.888 !ice-ring at 1.918 Angstrom - strong !EXCLUDE_RESOLUTION_RANGE= 1.913 1.853 !ice-ring at 1.883 Angstrom - weak !EXCLUDE_RESOLUTION_RANGE= 1.751 1.691 !ice-ring at 1.721 Angstrom - weak !MINIMUM_ZETA=0.05 !Defines width of 'blind region' (XPLAN,INTEGRATE,CORRECT) !WFAC1=1.0 !This controls the number of rejected MISFITS in CORRECT; !a larger value leads to fewer rejections. !REJECT_ALIEN=20.0 ! Automatic rejection of very strong reflections !============== INTEGRATION AND PEAK PROFILE PARAMETERS ===================== !Specification of the peak profile parameters below overrides the automatic !determination from the images !Suggested values are listed near the end of INTEGRATE.LP !BEAM_DIVERGENCE= 0.80 !arctan(spot diameter/DETECTOR_DISTANCE) !BEAM_DIVERGENCE_E.S.D.= 0.080 !half-width (Sigma) of BEAM_DIVERGENCE !REFLECTING_RANGE= 0.780 !for crossing the Ewald sphere on shortest route !REFLECTING_RANGE_E.S.D.= 0.113 !half-width (mosaicity) of REFLECTING_RANGE !NUMBER_OF_PROFILE_GRID_POINTS_ALONG_ALPHA/BETA=9 !used by: INTEGRATE !NUMBER_OF_PROFILE_GRID_POINTS_ALONG_GAMMA= 9 !used by: INTEGRATE !CUT=2.0 !defines the integration region for profile fitting !MINPK=75.0 !minimum required percentage of observed reflection intensity !DELPHI= 5.0!controls the number of reference profiles and scaling factors !======= PARAMETERS CONTROLLING CORRECTION FACTORS (used by: CORRECT) ======= !MINIMUM_I/SIGMA=3.0 !minimum intensity/sigma required for scaling reflections !NBATCH=-1 !controls the number of correction factors along image numbers !REFLECTIONS/CORRECTION_FACTOR=50 !minimum #reflections/correction needed !PATCH_SHUTTER_PROBLEM=TRUE !FALSE is default !STRICT_ABSORPTION_CORRECTION=TRUE !FALSE is default !CORRECTIONS= DECAY MODULATION ABSORPTION !=========== PARAMETERS DEFINING BACKGROUND AND PEAK PIXELS ================= !STRONG_PIXEL=3.0 !used by: COLSPOT !A 'strong' pixel to be included in a spot must exceed the background !by more than the given multiple of standard deviations. !MAXIMUM_NUMBER_OF_STRONG_PIXELS=1500000 !used by: COLSPOT !SPOT_MAXIMUM-CENTROID=3.0 !used by: COLSPOT !MINIMUM_NUMBER_OF_PIXELS_IN_A_SPOT=6 !used by: COLSPOT !This allows to suppress spurious isolated pixels from entering the !spot list generated by "COLSPOT". !NBX=3 NBY=3 !Define a rectangle of size (2*NBX+1)*(2*NBY+1) !The variation of counts within the rectangle centered at each image pixel !is used for distinguishing between background and spot pixels. !BACKGROUND_PIXEL=6.0 !used by: COLSPOT,INTEGRATE !An image pixel does not belong to the background region if the local !pixel variation exceeds the expected variation by the given number of !standard deviations. !SIGNAL_PIXEL=3.0 !used by: INTEGRATE !A pixel above the threshold contributes to the spot centroid