Santiago A few general comments:
- Whether you have sufficient resolution or not for the calculation to survive should be clear in the first 10 M of a calculation. If you monitor horizon masses and constraints, you'll see whether things are roughly working out or not. Of course, a detailed convergence test comparing horizon tracks, waveforms etc. will be necessary in the end, but it seems you're still in the exploratory stage of your setup. - The exploratory stage of a setup, where one has to discover good grid structures, resolutions, etc., is the most difficult part. Most people would get stuck here, and it helps to have experience with black hole simulations. - You mentioned that you disabled symmetries. That might be necessary in the end, but in the current stage, symmetries will reduce computing time while you experiment to find a good setup. - You mentioned that you disabled HDF5 output. That means that the simulation is a black box for you. I would enable output, at least for some scalar quantities (lapse, trace K, Hamiltonian constraint, conformal factor) every so often. This way you can look at what happens in the simulation. If things look boring – good. If there's an interesting feature – that might explain what is going wrong. Look especially for things you're not expecting to see (e.g. problems caused by outer boundaries, by refinement boundaries, weird reflections, etc.). It'll be necessary to examine the calculation output in 3d, not just in the equatorial plane. - If things go wrong at a time, try restarting from a checkpoint before that time and increase frequency and amount of output. This will let you examine the calculation in more detail. - The fact that you reach periastron is a good sign. This means that, if you compare the state of the calculation when things go wrong to an earlier state, you might find pointers as to what went wrong. Finally, nothing beats experience. Myself, I'm a bit crusty when it comes to running simulations myself, but I'd be happy to meet you on Zoom to look at some details. We can do that before you have HDF5 output, but it would be best if you tried to produce some output. All the best, -erik On Wed, Feb 24, 2021 at 10:51 AM Santiago Jaraba Gómez <[email protected]> wrote: > > Hi everyone, > > I am a PhD student at the IFT in Madrid. I am trying to adapt the > par/arxiv-1111.3344 /bbh.par parameter file to a hyperbolic encounter with an > initial separation of 100M. In fact, my problem is very similar to the one > here: > http://lists.einsteintoolkit.org/pipermail/users/2020-February/007292.html > > Learning from the GW150914.rpar parameter file, I have turned the bbh.par > into a .rpar file, so that I can automatically set some parameters such as > the initial positions, momenta, masses, etc. In addition, I have set the > boundaries to 768 to accommodate the new initial positions x = ±50 and > increased the refinement levels from 7 to 10, increasing a bit the resolution > of the finest grid (from 2/2^6=0.03125 to 12.8/2^9=0.025). I have also > disabled all the HDF5 output as well as the 180º rotating symmetry, since I > will later want to use it for different masses, and enabled the > QuasiLocalMeasures thorn. Finally, by following the advice for the mentioned > doubt of February 2020, I have increased the parameters > TwoPunctures::npoints_A,B,phi to 50, 50 and 20, respectively. > > I thought that I had it, since the simulation was successfully running, even > past the point of closest approach. However, shortly after that, the > parameter "ML_BSSN::trK norm2" that the output showed abruptly turned to -nan > and the simulation crashed. Could anyone help me find the problem? I thought > it might be the resolution, but the bbh.par has a bit worse finest grid > resolution and it runs smoothly, even with stronger fields involved. Could > the problem be in the initial conditions generated by TwoPunctures at such > large distances? > > I attach the .rpar file in case it helps. I am very new to the Einstein > Toolkit, so I might very well have overlooked something relevant. > > Thank you in advance. > > Best regards, > Santiago > > _______________________________________________ > Users mailing list > [email protected] > http://lists.einsteintoolkit.org/mailman/listinfo/users -- Erik Schnetter <[email protected]> http://www.perimeterinstitute.ca/personal/eschnetter/ _______________________________________________ Users mailing list [email protected] http://lists.einsteintoolkit.org/mailman/listinfo/users
