appendices:a20
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appendices:a20 [2022/07/01 10:48] helene [2. Definition of $N_i$ and $N_j$] |
appendices:a20 [2022/09/30 09:49] (current) helene [Appendix 20: Cycle jump procedure] |
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| These 2 steps are then repeated until the calculation is completed. The number of cycles to be fully calculated $N_i$ and the number of "jumped" cycles $N_j$ can vary during the simulation. One can also pick the results to be extrapolated during the jump. \\ | These 2 steps are then repeated until the calculation is completed. The number of cycles to be fully calculated $N_i$ and the number of "jumped" cycles $N_j$ can vary during the simulation. One can also pick the results to be extrapolated during the jump. \\ | ||
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| - | The cycle jump can be performed with Lagamine usign the Fortran EXTRAPOL program along with the attached Python script. \\ | + | The cycle jump can be performed with Lagamine using the Fortran EXTRAPOL program along with the attached Python script. The code is available on the [[https://gitlab.uliege.be/UEE/cycle-jump|GitLab]] \\ |
| ===== Structure of the data file ===== | ===== Structure of the data file ===== | ||
| The cycle jump procedure can be used on any cyclic simulation. It is launched using the Python script and requires an additional info file. \\ | The cycle jump procedure can be used on any cyclic simulation. It is launched using the Python script and requires an additional info file. \\ | ||
appendices/a20.1656665325.txt.gz · Last modified: 2022/07/01 10:48 by helene
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