|Version 9 (modified by 5 years ago) (diff),|
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NUISANCE can be used to compare or tune generator models. Some possible usage examples are given in the links below.
- Comparing two generator models using general flat trees?
- Comparing a generator prediction to NUISANCE datasets
- Tuning a generator model to NUISANCE datasets
- Plotting parameter variations?
- Evaluating systematic uncertainty bands?
This wiki outlines some potential usages for NUISANCE.
If you haven't yet build the framework, do so here.
The card file
NUISANCE requires the user providing an input card file which species:
- The data sample(s) to compare to
- The generators and their file locations
- Any additional parameters that a sample might take (optional)
- A normalisation factor to apply uniformly to the MC (optional)
When the generator provides a reweighting interface, systematic parameters to reweight or fit can be provided. To do this we need:
- Name of the systematic parameter in the reweighting engine
- Current value of the parameter
- Minimum value of the parameter (optional)
- Maximum value of the parameter (optional)
- Starting value of the parameter (optional)
- Whether we
All NUISANCE executables run based on the card file, except for when producing generator flat trees.
nuismin executable for tuning.
The default fitter is
MIGRAD algorithm with hard limits. The executable accepts
-f to change this behaviour.
The accepted arguments are specified in
src/Routines/MinimizerRoutines.cxx and NUISANCE accepts all the currently implemented minimisations in ROOT::Minimizer.
fAllowedRoutines = ("Migrad,Simplex,Combined,"
Separating options with commas runs them in order, e.g.
-f Simplex,Combined will first run a
Simplex minimisation and then propagate those results to a
Fake data studies with
nuismin supports fake-data studies for validation purposes. The user can set the data as the MC and see if the minimiser routine is able to reach the known parameter value. Its aim is to study fitting biases and general troubleshooting of parameter responses. It can also be useful for choosing the used fitting routines (e.g. Simplex, GSL, Migrad).
-d MC to the argument list to use the generator MC as fake-data. You can also specify reweight parameters for the fake-data in the card file by adding
fake_parameter PARAM_NAME PARAM_VALUE
to the card file to reweight the generator to some variation and set that to the data. The data will now be some parameter variation of the MC, and (hopefully) the fit routine will converge on this parameter.
You can also specify
-d FILE_LOCATION.root to set the fake-data to a MC histogram that has been previously produced through NUISANCE.
The output of a fit result to
ANL_CC1ppip_XSec_1DEnu_nu will produce some output file
MyOutput.root, containing a histogram
-d MyOutput.root in addition to a card file specifying
sample ANL_CC1ppip_XSec_1DEnu_nu MY_GENERATOR:GENERATOR_FILE_LOCATION.root`
will find the
_MC histogram in
MyOutput.root and set it to the data in the new