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Table of Contents
Reduce the number of events in an EventWorkspace by grouping together events with identical or similar X-values (time-of-flight).
Name | Direction | Type | Default | Description |
---|---|---|---|---|
InputWorkspace | Input | EventWorkspace | Mandatory | The name of the EventWorkspace on which to perform the algorithm |
OutputWorkspace | Output | EventWorkspace | Mandatory | The name of the output EventWorkspace. |
Tolerance | Input | number | 1e-05 | The tolerance on each event’s X value (normally TOF, but may be a different unit if you have used ConvertUnits). Any events within Tolerance will be summed into a single event. |
WallClockTolerance | Input | number | Optional | The tolerance (in seconds) on the wall-clock time for comparison. Unset means compressing all wall-clock times together disabling pulsetime resolution. |
StartTime | Input | string | An ISO formatted date/time string specifying the timestamp for starting filtering. Ignored if WallClockTolerance is not specified. Default is start of run |
The algorithm can be run in two modes, with and without pulsetime
resolution. This switch is made by specifying a
WallClockTolerance
. The StartTime
is ignored unless
WallClockTolerance
is specified.
This algorithm starts by sorting the event lists by TOF (or whatever
the independent axis is) and ignoring the pulsetime. Therefore you may
gain speed by calling SortEvents v1 beforehand. Starting
from the smallest TOF, all events within Tolerance
in a spectrum
are considered to be identical. A weighted event without time
information
is created; its
TOF is the average value of the summed events; its weight is the sum
of the weights of the input events; its error is the sum of the square
of the errors of the input events.
Note that using CompressEvents
may introduce errors if you use too large
of a tolerance. Rebinning an event workspace still uses an
all-or-nothing view: if the TOF of the event is in the bin, then the
counts of the bin is increased by the event’s weight. If your tolerance
is large enough that the compound event spans more than one bin, then
you will get small differences in the final histogram.
If you are working from the raw events with TOF resolution of 0.100 microseconds, then you can safely use a tolerance of, e.g., 0.05 microseconds to group events together. In this case, histograms with/without compression are identical. If your workspace has undergone changes to its X values (unit conversion for example), you have to use your best judgement for the Tolerance value.
Similar to the version without pulsetime resolution with a few key differences:
events are weighted with time
. As a result, one can still run
FilterEvents v1 on the results.While the algorithm can be run with arbitrary values of
WallClockTolerance
, it is recommended to keep in mind what
resolution is desired for later filtering. The pulsetime is
effectively filtered on a bin of the form:
\({pulsetime[i]} = {StartTime} + {WallClockTolerance} * i\)
The StartTime
property is only used in pulsetime resolution
mode. Any events that occur before it in a run are ignored and do not
appear in the OutputWorkspace
. If it is not specified, then the
Run.startTime
is used. An example
ISO8601
format for the StartTime
is 2010-09-14T04:20:12
. Normally this
parameter can be left unset.
Example
ws = CreateSampleWorkspace("Event",BankPixelWidth=1)
print("The unfiltered workspace {} has {} events and a peak value of {:.2f}".format(ws, ws.getNumberEvents(), ws.readY(0)[50]))
ws = CompressEvents(ws)
print("The compressed workspace {} still has {} events and a peak value of {:.2f}".format(ws, ws.getNumberEvents(), ws.readY(0)[50]))
print("However it now takes up less memory.")
Output:
The unfiltered workspace ws has 1900 events and a peak value of 257.00
The compressed workspace ws still has 1900 events and a peak value of 257.00
However it now takes up less memory.
Categories: AlgorithmIndex | Events
C++ header: CompressEvents.h (last modified: 2021-03-31)
C++ source: CompressEvents.cpp (last modified: 2021-03-31)
Python: CompressEvents.py (last modified: 2020-10-08)