Parametric simulation
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− | A parametric simulation is a tool to receive a detector response without detailed description of interaction of particles with matter. The simulation is the part of the Aurora project, which is a software suit for SCTF. | + | A parametric simulation is a tool to receive a detector response without detailed description of interaction of particles with matter. The simulation is the part of the Aurora project, which is a software suit for SCTF. |
Implemented detector subsystems: | Implemented detector subsystems: | ||
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The parametric simulation yields the detector response in the SCT EDM format thus allowing to analyze its result in the same manner as the result of the full simulation. | The parametric simulation yields the detector response in the SCT EDM format thus allowing to analyze its result in the same manner as the result of the full simulation. | ||
− | How-to use the parametric simulation is demonstrated [https://ctd.inp.nsk.su/wiki/index.php/SCT_parametric_simulation here] | + | '''More information about parameterization''' is presented [[SctParSim (Aurora)|here]]. |
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+ | '''How-to use the parametric simulation''' is demonstrated [https://ctd.inp.nsk.su/wiki/index.php/SCT_parametric_simulation here] | ||
= SctParSim (Python) = | = SctParSim (Python) = |
Revision as of 12:40, 24 November 2021
Contents |
Talks
- Software meeting 2018-06-29, Friday, File:Sctau papas v2 20180629.pdf by Georgy Razuvaev
- Software meeting 2019-02-01 Status of PAPAS by Georgy Razuvaev
- Software meeting 2019-08-09 Super c-τ parametric simulation: Status by Georgy Razuvaev
- Software meeting 2019-12-27 SctParSim: status and recent progress by Maria Belozyorova
- Workshop on future Super c-tau factories 2021-11-16 Parametric simulation of the SCT detector by Maria Belozyorova
SctParSim
A parametric simulation is a tool to receive a detector response without detailed description of interaction of particles with matter. The simulation is the part of the Aurora project, which is a software suit for SCTF.
Implemented detector subsystems:
- drift chamber
- FARICH PID system
- calorimeter
- muon system
The parametric simulation yields the detector response in the SCT EDM format thus allowing to analyze its result in the same manner as the result of the full simulation.
More information about parameterization is presented here.
How-to use the parametric simulation is demonstrated here
SctParSim (Python)
This version of the parametric simulation had written in the Python language. The main difference is that this version has the ability to draw events. How to run and parameter description is here
PAPAS (Old)
More details are here