Pencil1: iapp, nprocs, ncpus= 0 8 8 SVN: ------- v. ( ) $Id$ SVN: start.in,v v. 1.1 (2014/04/24 15:15:40) wlyra initialize_mpicomm: enabled MPI SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: ------- v. ( ) $Id$ SVN: gravity_r.f90,v v. 1.1 (2018/08/24 15:48:10) wlyra 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. ( ) $Id$ nxgrid, nygrid, nzgrid= 32 16 16 Constructing power-law grid. It will generate a grid obeying the constrain d[x^c] = const ==> dx = const/x^(c-1) where c is the value of coeff_grid. 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 -5.3185200738655558 7.0000000000000007E-002 4.9000000000000016E-003 1.0000000000000000 WARNING: initialize_diagnostics: volume averages are calculated wrongly for nonequidistant grids unless lproper_averages=T.! initialize_gravity: non-smoothed newtonian gravity diffusion: nothing (i.e. no mass diffusion) initialize_density: no need to read initial stratification for lanti_shockdiffusion=F. WARNING: initialize_energy: llocal_iso=T. Make sure you have the appropriate INITIAL_CONDITION in Makefile.local! select_eos_variable: Using rho and cs2 resistivity: constant eta init_uu: nothing gaunoise_vect: variable i= 1 gaunoise_vect: variable i= 2 gaunoise_vect: variable i= 3 initial_condition_lnrho: locally isothermal approximation Radial density stratification with power law= -1.5000000000000000 Radial temperature stratification with power law= -1.0000000000000000 init_lnrho: nothing init_lnrho: cs2bot,cs2top= 4.9000000000000007E-003 4.9000000000000007E-003 init_aa: nothing start.x has completed successfully real 2.45 user 0.31 sys 0.15