SVN: ------- v. ( ) $Id$ SVN: start.in,v v. 1.4 (2012/04/29 10:04:14) dintrans SVN: run.in,v v. 1.5 (2012/05/07 10:00:00) dintrans 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 2-D run nxgrid, nygrid, nzgrid= 64 1 32 Lx, Ly, Lz= 2.82841992 0.00000000E+00 1.00000000 Vbox= 2.82841992 units_general: unit_velocity= 1.0000000000000000 units_general: unit_density= 1.0000000000000000 units_general: unit_length= 1.0000000000000000 units_general: unit_magnetic= 3.5449078083038330 units_eos: unit_temperature= 4.8108880235694808E-009 units_eos: cp, lnTT0, cs0, pp0, Rgas= 1.00000000 0.405465186 1.00000000 0.600000024 0.399999976 select_eos_variable: Using lnrho and TT initialize_energy: heat conduction: constant chi. in Boussinesq approximation, viscous force=nu*del2v with nu= 1.00000000 viscous force: nu*del2v pde: ENTER SVN: ------- v. ( ) $Id$ duu_dt: SOLVE Bcs for ux, x: < p>, y: < p>, z: < s> Bcs for uy, x: < p>, y: < p>, z: < s> Bcs for uz, x: < p>, y: < p>, z: < a> duu_dt: max(advec_uu) = 6.03695177E-02 SOLVE dlnTT_dt denergy_dt: TT,cs2= 0.00000000E+00 0.00000000E+00 Bcs for TT, x: < p>, y: < p>, z: < a> denergy_dt: cs20= 0.00000000E+00 denergy_dt: max(diffus_chi ) = 1473.00256 denergy_dt: max(diffus_chi3) = 0.00000000E+00 At line 403 of file experimental/boussinesq.f90 Fortran runtime warning: An array temporary was created for argument 'phi' of procedure 'inverse_laplacian_z' ---it---------t----------dt--------urms--------ekin--------TT2m--------epsK--------divum---- 0 0.00000E+00 1.70E-04 1.73165E-03 1.49930E-06 0.00000E+00 5.78087E-03 3.44422E-05 10 1.69721E-03 1.70E-04 2.55937E-04 3.27520E-08 3.31168E-14 1.92741E-05 1.38623E-10 20 3.39443E-03 1.70E-04 1.79456E-04 1.61023E-08 5.61687E-14 4.88527E-06 4.09047E-12 30 5.09164E-03 1.70E-04 1.44759E-04 1.04775E-08 7.12958E-14 2.21549E-06 1.27402E-12 40 6.78885E-03 1.70E-04 1.23788E-04 7.66174E-09 8.10492E-14 1.23401E-06 1.50860E-12 50 8.48607E-03 1.70E-04 1.09707E-04 6.01776E-09 8.78116E-14 7.63333E-07 8.70639E-13 60 1.01833E-02 1.70E-04 9.97175E-05 4.97179E-09 9.31140E-14 5.05476E-07 5.15268E-13 70 1.18805E-02 1.70E-04 9.23657E-05 4.26571E-09 9.78408E-14 3.52422E-07 1.46421E-13 80 1.35777E-02 1.70E-04 8.67936E-05 3.76656E-09 1.02473E-13 2.56391E-07 4.11665E-13 90 1.52749E-02 1.70E-04 8.24598E-05 3.39981E-09 1.07253E-13 1.93523E-07 1.82243E-13 Simulation finished after 91 time-steps Writing final snapshot at time t = 1.5444644024682930E-002 Wall clock time [hours] = 2.086E-04 (+/- 2.7778E-07) Wall clock time/timestep/meshpoint [microsec] = 4.029662 Maximum used memory per cpu [MBytes] = 4.594 Maximum used memory [MBytes] = 4.594 real 0.80 user 0.77 sys 0.00