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About 'K_stable.npy' and 'fullscale_rates.json' #30
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Hi, a bug appears when I run this file: Traceback (most recent call last): |
Hi,
looks reasonable and resolves this error for me. But after that I ran into an assertion error. This certainly will need some more in depth analysis. Considering the |
OK, I got it. But I got a wrong figure when I run SchueckerSchmidt2017/Fig7_stabilization_analysis.py. As my figure shown, the iteration_1 is stability before fac_nu_5E increased 1.07435, it's different from the result of your paper. Can you help me? @jarsi @AlexVanMeegen I didn't plot iteration_5. |
I run the SchueckerSchmidt2017/stabilization.py file, no changed except @jarsi above said. |
I haven't run the script myself yet, but the figure that is included in the repo shows the same behavior you are describing. I don't know why this is the case and it certainly seems to wrong, but will look into it as soon as possible. |
OK, thanks. Please tell me what to do when you know how to solve it. |
Hi, @jarsi @AlexVanMeegen. I want use the stabilitization method to my data. I found this in your paper, that looks the same as in your paper. Can you give me the code that generated this data about K_matrix? Or give me your parameters. I want to repeat your work, and then apply it to my data. Thank you very much! |
Hi, neither @AlexVanMeegen nor me were part of this publication. We are users and co-maintainers of the repo as it is related to our own work. I'll ask around whether we can get access to the original code or if someone has an idea what is missing here. |
Hi, I noticed that stabilization.py has g=-16 whereas our model uses g=-11. So perhaps that is the reason why you see stability over a larger range of values of kappa? About the error with the array dimensions, I think we'd best ask @jschuecker and @mschmidt87 |
Hi, I tried to change the value of g. But the vaules of stability was more larger when I used g=-11. When g=-13, the result is very similar to the one in the paper. However, the generated K_prime.npy matrix was somewhat different from the K_stable.npy matrix you provide. |
Hi, From own experience we know that results can be highly sensitive to the numerical scheme as well as initial conditions. |
Hi, I don't konw how the 'K_stable.npy' and 'fullscale_rates.json' files were generated. I guess the 'K_stable.npy' file were generated when ran the 'stabilization.py' file? But how did you create the another one?
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