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-rw-r--r--doc/man/indexamajig.16
1 files changed, 3 insertions, 3 deletions
diff --git a/doc/man/indexamajig.1 b/doc/man/indexamajig.1
index 1ab4a06d..4b428475 100644
--- a/doc/man/indexamajig.1
+++ b/doc/man/indexamajig.1
@@ -47,7 +47,7 @@ You can control the peak detection on the command line. Firstly, you can choose
CrystFEL considers all peak locations to be distances from the corner of the detector panel, in pixel units, consistent with its description of detector geometry (see 'man crystfel_geometry'). The software which generates the HDF5 or CXI files, including Cheetah, may instead consider the peak locations to be pixel indices in the data array. Therefore, the peak coordinates from \fB--peaks=cxi\fR or \fB--peaks=hdf5\fR will by default have 0.5 added to them. Use \fB--no-half-pixel-shift\fR if this isn't what you want.
-If you use \fB--peaks=zaef\fR, indexamajig will use a simple gradient search after Zaefferer (2000). You can control the overall threshold and minimum squared gradient for finding a peak using \fB--threshold\fR and \fB--min-gradient\fR. The threshold has arbitrary units matching the pixel values in the data, and the minimum gradient has the equivalent squared units. Peaks will be rejected if the 'foot point' is further away from the 'summit' of the peak by more than the inner integration radius (see below). They will also be rejected if the peak is closer than twice the inner integration radius from another peak.
+If you use \fB--peaks=zaef\fR, indexamajig will use a simple gradient search after Zaefferer (2000). You can control the overall threshold and minimum squared gradient for finding a peak using \fB--threshold\fR and \fB--min-squared-gradient\fR. The threshold has arbitrary units matching the pixel values in the data, and the minimum gradient has the equivalent squared units. Peaks will be rejected if the 'foot point' is further away from the 'summit' of the peak by more than the inner integration radius (see below). They will also be rejected if the peak is closer than twice the inner integration radius from another peak.
If you instead use \fB--peaks=peakfinder8\fR, indexamajig will use the "peakfinder8" peak finding algorithm describerd in Barty et al. (2014). Pixels above a radius-dependent intensity threshold are considered as candidate peaks (although the user sets an absolute minimum threshold for candidate peaks). Peaks are then only accepted if their signal to noise level over the local background is sufficiently high. Peaks can include multiple pixels and the user can reject a peak if it includes too many or too few. The distance of a peak from the center of the detector can also be used as a filtering criterion. Note that the peakfinder8 will not report more than 2048 peaks for each panel: any additional peak is ignored.
@@ -258,9 +258,9 @@ Apply a noise filter to the image with checks 3x3 squares of pixels and sets all
Set the overall threshold for peak detection using \fB--peaks=zaef\fR or \fB--peaks=peakfinder8\fR to \fIthres\fR, which has the same units as the detector data. The default is \fB--threshold=800\fR.
.PD 0
-.IP \fB--min-gradient=\fR\fIgrad\fR
+.IP \fB--min-squared-gradient=\fR\fIgrad\fR
.PD
-Set the square of the gradient threshold for peak detection using \fB--peaks=zaef\fR to \fIgrad\fR, which has units of "squared detector units per pixel". The default is \fB--min-gradient=100000\fR. The reason it's 'gradient squared' instead of just 'gradient' is historical.
+Set the square of the gradient threshold for peak detection using \fB--peaks=zaef\fR to \fIgrad\fR, which has units of "squared detector units per pixel". The default is \fB--min-squared-gradient=100000\fR. \fB--min-sq-gradient\fR and \fB--min-gradient\fR are synonyms for this option, however the latter should not be used to avoid confusion.
.PD 0
.IP \fB--min-snr=\fR\fIsnr\fR