Difference between revisions of "Radphi MonteCarlo"
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* The calculation below is based on 300,000 omega events that were generated using mcwrap and reconstructed using gradphi software on gluey. | * The calculation below is based on 300,000 omega events that were generated using mcwrap and reconstructed using gradphi software on gluey. | ||
*To reconstruct 300,000 events it took 6840 seconds . | *To reconstruct 300,000 events it took 6840 seconds . | ||
| − | + | ||
<table border ="5"> | <table border ="5"> | ||
<tr> | <tr> | ||
| − | <td> | + | <td>Number generated(millions)</td> |
<td>CPU time per event (s)</td> | <td>CPU time per event (s)</td> | ||
<td>Output file size (MB)</td> | <td>Output file size (MB)</td> | ||
Revision as of 16:57, 9 June 2014
To generate Radphi Monte Carlo events steps below are followed:
- Edit the decay.dat file and specify the reaction of interest and number of events to generate.
- Run mcwrap and specify output name.
- Output file generated with output_name.itape .
- Move this file to the folder Gradphi.
- Edit events.in and control.in files and the run gradphi.x.
Resources needed to generate 100000000 events.
- The calculation below is based on 300,000 omega events that were generated using mcwrap and reconstructed using gradphi software on gluey.
- To reconstruct 300,000 events it took 6840 seconds .
| Number generated(millions) | CPU time per event (s) | Output file size (MB) | Total time in days |
| 100 | 0.0216 | 59000 | 25 |