Difference between revisions of "Using MCEEP"
From Hall A Wiki
(→Running MCEEP) |
(→MCEEP Resources) |
||
(5 intermediate revisions by the same user not shown) | |||
Line 17: | Line 17: | ||
(envinrinmentals are set in ~/.cshrc) | (envinrinmentals are set in ~/.cshrc) | ||
− | * create a new | + | * create a new directory for the run you want to take, and go inside it, e.g. |
− | mkdir | + | mkdir v3_9 |
− | cd | + | cd v3_9 |
+ | |||
+ | * copy a sample input file | ||
+ | |||
+ | cp ../input/v3_9.inp . | ||
+ | mv v3_9.inp My_v3_9.inp | ||
+ | |||
+ | (and edit in) | ||
* a simple run command will run the simulation | * a simple run command will run the simulation | ||
Line 26: | Line 33: | ||
$RunMCEEP | $RunMCEEP | ||
− | * Answer the questions, as for example in [[Example of a MCEEP run]]. Start by entering an input file | + | * Answer the questions, as for example in [[Example of a MCEEP run]]. Start by entering an input file e.g. |
− | + | My_v3_9 | |
* choose a procedure | * choose a procedure | ||
Line 34: | Line 41: | ||
ELASTIC, BOUND STATE, CONTINUUM or ACCEPTANCE | ELASTIC, BOUND STATE, CONTINUUM or ACCEPTANCE | ||
− | * After MCEEP will finish running, multiple output files will appear in the output directory, | + | * After MCEEP will finish running, multiple output files will appear in the output directory, the most important are a summary file and an NTuple file |
− | + | My_v3_9.sum | |
+ | My_v3_9.ntu | ||
* Conversion to ROOT format is then achieved by going to the ROOT utilities and using the conversion program | * Conversion to ROOT format is then achieved by going to the ROOT utilities and using the conversion program | ||
− | cd $mceep_home/utilities | + | cd $mceep_home/utilities/root/ |
− | m2root v3_9.ntu | + | m2root $mceep_home/v3_9/My_v3_9.ntu |
+ | mv mceep.root $mceep_home/v3_9/ | ||
+ | cd $mceep_home/v3_9/ | ||
* The ROOT output file '''mceep.root''' will have a TTree called '''mceep''' with the variables set in the input file. To draw e.g. E(miss) use | * The ROOT output file '''mceep.root''' will have a TTree called '''mceep''' with the variables set in the input file. To draw e.g. E(miss) use | ||
Line 50: | Line 60: | ||
=== comments === | === comments === | ||
− | * If elastic scattering is chosen, MCEEP will prompt the user to select scattering from the p, d, 3H, 3He, 4He or | + | * If elastic scattering is chosen, MCEEP will prompt the user to select scattering from the p, d, 3H, 3He, 4He or 12C. |
* Also, for elastic scattering in general, the user has the option of enforcing the acceptance of the hadron arm or simulating single-arm elastic scattering where the hadron kinematics are ignored. | * Also, for elastic scattering in general, the user has the option of enforcing the acceptance of the hadron arm or simulating single-arm elastic scattering where the hadron kinematics are ignored. |
Latest revision as of 02:27, 21 November 2015
MCEEP Resources
Running MCEEP
- login to the farm
ssh ifarm
- a simple command will take you to the MCEEP directory (/work/halla/e07006/disk1/Erez/MCEEP/mceep)
$GoMCEEP
(envinrinmentals are set in ~/.cshrc)
- create a new directory for the run you want to take, and go inside it, e.g.
mkdir v3_9 cd v3_9
- copy a sample input file
cp ../input/v3_9.inp . mv v3_9.inp My_v3_9.inp
(and edit in)
- a simple run command will run the simulation
$RunMCEEP
- Answer the questions, as for example in Example of a MCEEP run. Start by entering an input file e.g.
My_v3_9
- choose a procedure
ELASTIC, BOUND STATE, CONTINUUM or ACCEPTANCE
- After MCEEP will finish running, multiple output files will appear in the output directory, the most important are a summary file and an NTuple file
My_v3_9.sum My_v3_9.ntu
- Conversion to ROOT format is then achieved by going to the ROOT utilities and using the conversion program
cd $mceep_home/utilities/root/ m2root $mceep_home/v3_9/My_v3_9.ntu mv mceep.root $mceep_home/v3_9/ cd $mceep_home/v3_9/
- The ROOT output file mceep.root will have a TTree called mceep with the variables set in the input file. To draw e.g. E(miss) use
mceep -> Draw("EMISS")
comments
- If elastic scattering is chosen, MCEEP will prompt the user to select scattering from the p, d, 3H, 3He, 4He or 12C.
- Also, for elastic scattering in general, the user has the option of enforcing the acceptance of the hadron arm or simulating single-arm elastic scattering where the hadron kinematics are ignored.
- If elastic scattering is chosen, MCEEP requests no further input.
- For the bound state or continuum options, MCEEP will prompt the user to choose from various models.