CreateSimulationWorkspace v1

../_images/CreateSimulationWorkspace-v1_dlg.png

CreateSimulationWorkspace dialog.

Table of Contents

Summary

Create a blank workspace for a given instrument.

Properties

Name Direction Type Default Description
Instrument Input string Mandatory An instrument name or filename ( a full path or string containing an xml extension).
BinParams Input dbl list Mandatory A comma separated list of first bin boundary, width, last bin boundary. See Rebin for more details
OutputWorkspace Output MatrixWorkspace Mandatory The new workspace
UnitX Input string DeltaE The unit to assign to the X axis. Allowed values: [‘Degrees’, ‘DeltaE’, ‘DeltaE_inFrequency’, ‘DeltaE_inWavenumber’, ‘dSpacing’, ‘dSpacingPerpendicular’, ‘Empty’, ‘Energy’, ‘Energy_inWavenumber’, ‘Label’, ‘Momentum’, ‘MomentumTransfer’, ‘QSquared’, ‘SpinEchoLength’, ‘SpinEchoTime’, ‘Time’, ‘TOF’, ‘Wavelength’]
DetectorTableFilename Input string   An optional filename (currently RAW or ISIS NeXus) that contains UDET & SPEC tables to access hardware grouping

Description

Creates a blank workspace for a given instrument with the option of pulling in detector tables from a RAW/NeXus data file. The histogram sizes are given by binning parameters, see Rebin v1, rather than explicit data arrays. There is also an option to set the X axis unit.

If the DetectorTableFilename property is blank then it is assumed that a 1:1 spectra-mapping is required and the workspace will have the same number of histograms as detectors in the instrument (not including monitors)

Categories: Algorithms | Inelastic\Quantification

Source

C++ source: CreateSimulationWorkspace.cpp (last modified: 2017-09-28)

C++ header: CreateSimulationWorkspace.h (last modified: 2016-05-24)