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void | SetObservableDimI (double o, int iDim) |
| Set observable of dimension iDim (e.g. in case of multidimensional measurements)
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void | SetObservable0 (double o) |
| Set observable for '0th' dimension for single-differential calculation.
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void | SetObservable1 (double o) |
| Set observable for '1st' dimension for single and double-differential calculations.
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void | SetObservable2 (double o) |
| Set observable for '2nd' dimension for single/double/triple differential calculations.
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void | SetObsBin (int iBin) |
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void | SetObsScale1 (double mu) |
| flexible scale table: More...
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void | SetObsScale2 (double mu) |
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void | SetScale (double mu) |
| if not a flexible-scale table More...
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◆ SetObsBin()
void fnloScenario::SetObsBin |
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int |
iBin | ) |
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inline |
[optional] Set ObsBin (e.g. if binning is performed by generator, no other observables are then needed.)
◆ SetObsScale1()
void fnloScenario::SetObsScale1 |
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double |
mu | ) |
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inline |
flexible scale table:
For flexible-scale tables. Set scale 1 (should be in 'GeV').
◆ SetObsScale2()
void fnloScenario::SetObsScale2 |
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double |
mu | ) |
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inline |
For flexible-scale tables. Set scale 2
◆ SetScale()
void fnloScenario::SetScale |
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double |
mu | ) |
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inline |
if not a flexible-scale table
the ren. and fact. scale (not mu^2)
◆ fastNLOCreate
useful class to keep all scenario specific quantities. e.g. observables and scales
The documentation for this class was generated from the following file: