Pencil1: iapp, nprocs, ncpus= 0 4 4 SVN: ------- v. ( ) $Id$ SVN: start.in,v v. 1.3 (2020/02/20 12:35:53) joern SVN: run.in,v v. 1.3 (2020/02/20 12:35:53) joern initialize_mpicomm: enabled MPI SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ The verbose level is ip= 14 (ldebug= F ) This is a 3-D run nxgrid, nygrid, nzgrid= 32 32 32 Lx, Ly, Lz= 6.2831853071795862 6.2831853071795862 6.2831853071795862 Vbox= 248.05021344239853 input_persist_forcing: 0.0000000000000000E+000 0.0000000000000000E+000 0.0000000000000000E+000 input_persist_forcing: -10.000000000000000 units_general: unit_velocity= 1.0000000000000000 units_general: unit_density= 1.0000000000000000 units_general: unit_length= 1.0000000000000000 units_general: unit_magnetic= 3.5449077018110318 units_eos: unit_temperature= 1.2027220936797545E-008 units_eos: cp, lnTT0, cs0, pp0, Rgas= 1.0000000000000000 0.0000000000000000E+000 1.0000000000000000 1.0000000000000000 1.0000000000000000 initialize_grid: Set up half grid x12, y12, z12 mass diffusion: slope limited diffusion mass diffusion: using 2nd order initialize_density: no need to read initial stratification for lanti_shockdiffusion=F. select_eos_variable: Using lnrho and cs2 resistivity: slope-limited diffusion on aa resistivity: using 2nd order viscous force: slope-limited diffusion viscous force: using 2nd order pencil_consistency_check: checking pencil case pencil_consistency_check: checking requested pencils pencil_consistency_check: performing small pencil check pencil_consistency_check: the small pencil check reported no problems pencil_consistency_check: checking dependence on pencil initialization pencil_consistency_check: results are independent of pencil initialization pencil_consistency_check: checking diagnostics pencils pencil_consistency_check: performing small pencil check pencil_consistency_check: the small pencil check reported no problems pencil_consistency_check: set lpencil_check_diagnos_opti=T in run.in to report pencil_consistency_check: optimisation possibilities for diagnostics pencils pencil_consistency_check: checking dependence on pencil initialization pencil_consistency_check: diagnostics are independent of pencil initialization pencil_consistency_check: all tests passed pde: ENTER SVN: ------- v. ( ) $Id$ calc_pencils_hydro: upwinding advection term calc_pencils_energy: max(advec_cs2) = 77.814669037315426 duu_dt: SOLVE Bcs for ux, x: < p>, y: < p>, z: < p> Bcs for uy, x: < p>, y: < p>, z: < p> Bcs for uz, x: < p>, y: < p>, z: < p> Bcs for sld_char, x: < p>, y: < p>, z: < p> duu_dt: max(advec_uu) = 0.0000000000000000E+000 dlnrho_dt: SOLVE Bcs for lnrho, x: < p>, y: < p>, z: < p> dlnrho_dt: max(diffus_diffrho ) = 0.0000000000000000E+000 dlnrho_dt: max(diffus_diffrho3) = 0.0000000000000000E+000 daa_dt: SOLVE Bcs for Ax, x: < p>, y: < p>, z: < p> Bcs for Ay, x: < p>, y: < p>, z: < p> Bcs for Az, x: < p>, y: < p>, z: < p> Bcs for sld_char, x: < p>, y: < p>, z: < p> daa_dt: iresistivity=eta-slope-limited daa_dt: max(diffus_eta) = 0.0000000000000000E+000 daa_dt: max(diffus_eta2) = 0.0000000000000000E+000 daa_dt: max(diffus_eta3) = 0.0000000000000000E+000 ----it--------t--------dt-------urms------umax-----ux2m-------uy2m-------uz2m-------orms------divu2m------rhom--------brms--------bmax-------jrms---- 0 0.000 1.122E-01 0.000000 0.0000 0.000E+00 0.000E+00 0.000E+00 0.00000 0.000E+00 1.000000 1.351537E-11 4.114E-11 2.844E-10 2 0.224 1.114E-01 0.004751 0.0079 7.702E-06 6.609E-06 8.263E-06 0.01062 4.578E-13 1.000000 1.153885E-11 3.359E-11 2.312E-10 4 0.447 1.109E-01 0.006709 0.0149 2.018E-05 1.034E-05 1.449E-05 0.01537 8.501E-11 1.000000 9.942642E-12 2.835E-11 1.895E-10 6 0.668 1.102E-01 0.009550 0.0204 4.333E-05 2.532E-05 2.257E-05 0.02266 5.612E-10 1.000000 8.664110E-12 2.417E-11 1.571E-10 8 0.888 1.101E-01 0.010649 0.0233 5.551E-05 3.124E-05 2.666E-05 0.02454 1.827E-09 1.000000 7.634614E-12 2.150E-11 1.319E-10 10 1.108 1.098E-01 0.011644 0.0255 5.796E-05 4.741E-05 3.022E-05 0.02671 3.087E-09 1.000000 6.803655E-12 1.991E-11 1.121E-10 12 1.327 1.093E-01 0.012555 0.0306 6.756E-05 5.586E-05 3.422E-05 0.02811 6.395E-09 1.000000 6.130164E-12 1.872E-11 9.650E-11 14 1.546 1.091E-01 0.013403 0.0334 7.694E-05 5.846E-05 4.423E-05 0.03019 9.428E-09 1.000000 5.578819E-12 1.767E-11 8.413E-11 16 1.764 1.090E-01 0.014158 0.0329 7.889E-05 6.030E-05 6.125E-05 0.03134 1.146E-08 1.000000 5.122455E-12 1.670E-11 7.417E-11 18 1.981 1.085E-01 0.015416 0.0389 9.276E-05 6.806E-05 7.682E-05 0.03301 1.328E-08 1.000000 4.741746E-12 1.582E-11 6.609E-11 Simulation finished after 19 time-steps Writing final snapshot at time t = 2.0896071739394411 Wall clock time [hours] = 6.550E-04 (+/- 2.7778E-13) Wall clock time/timestep/meshpoint [microsec] = 3.787402 Maximum used memory per cpu [MBytes] = 32.832 Maximum used memory [MBytes] = 129.164 real 3.79 user 12.86 sys 0.20