Initializing AMReX (26.05-41-gba3cb0c68650)... MPI initialized with 4 MPI processes MPI initialized with thread support level 0 AMReX (26.05-41-gba3cb0c68650) initialized Successfully read inputs file ... ERF git hash: 7ed9c506 AMReX git hash: 26.05-41-gba3cb0c686 Problem name (from inputs file) is: "ABL" Thermal stratification based on gradient of potential temperature Null land surface model! SOLVER CHOICE: At level 0 : compressible with implicit substepping vert_implicit_fac : 0 0 0 use_coriolis : 0 use_gravity : 0 Moisture Model: None Terrain Type: None Buildings Type: None Mesh Type: ConstantDz ABL Driver Type: None Radiation Model: None Gradp_type : 0 Buoyancy_type at level 0 : 1 Advection Choices: dycore_horiz_adv_type : Upwind_3rd dycore_vert_adv_type : Upwind_3rd dryscal_horiz_adv_type : Upwind_3rd dryscal_vert_adv_type : Upwind_3rd moistscal_horiz_adv_type : WENO3 moistscal_vert_adv_type : WENO3 Diffusion choices: rho0_trans : 1 alpha_T : 0 alpha_C : 0 dynamic_viscosity : 0 Not using any molecular diffusivity, i.e. using the modeled turbulent diffusivity Sponge choices: Rayleigh damping : None w damping : 0 (coeff = -1 * dz/dt**2) Turbulence Settings at level 0 Using Smagorinsky LES model at level 0 Smagorinsky uses Richardson number correction with Ri_crit = 0.25 Cs : 0.1 isotropic mixing : 1 Pr_t : 0.3333333333 Sc_t : 1 Creating new distribution map on level: 0 BA FROM SCRATCH AT LEVEL 0 (BoxArray maxbox(64) m_ref->m_hash_sig(0) ((0,0,0) (7,7,63) (0,0,0)) ((8,0,0) (15,7,63) (0,0,0)) ((16,0,0) (23,7,63) (0,0,0)) ((24,0,0) (31,7,63) (0,0,0)) ((32,0,0) (39,7,63) (0,0,0)) ((40,0,0) (47,7,63) (0,0,0)) ((48,0,0) (55,7,63) (0,0,0)) ((56,0,0) (63,7,63) (0,0,0)) ((0,8,0) (7,15,63) (0,0,0)) ((8,8,0) (15,15,63) (0,0,0)) ((16,8,0) (23,15,63) (0,0,0)) ((24,8,0) (31,15,63) (0,0,0)) ((32,8,0) (39,15,63) (0,0,0)) ((40,8,0) (47,15,63) (0,0,0)) ((48,8,0) (55,15,63) (0,0,0)) ((56,8,0) (63,15,63) (0,0,0)) ((0,16,0) (7,23,63) (0,0,0)) ((8,16,0) (15,23,63) (0,0,0)) ((16,16,0) (23,23,63) (0,0,0)) ((24,16,0) (31,23,63) (0,0,0)) ((32,16,0) (39,23,63) (0,0,0)) ((40,16,0) (47,23,63) (0,0,0)) ((48,16,0) (55,23,63) (0,0,0)) ((56,16,0) (63,23,63) (0,0,0)) ((0,24,0) (7,31,63) (0,0,0)) ((8,24,0) (15,31,63) (0,0,0)) ((16,24,0) (23,31,63) (0,0,0)) ((24,24,0) (31,31,63) (0,0,0)) ((32,24,0) (39,31,63) (0,0,0)) ((40,24,0) (47,31,63) (0,0,0)) ((48,24,0) (55,31,63) (0,0,0)) ((56,24,0) (63,31,63) (0,0,0)) ((0,32,0) (7,39,63) (0,0,0)) ((8,32,0) (15,39,63) (0,0,0)) ((16,32,0) (23,39,63) (0,0,0)) ((24,32,0) (31,39,63) (0,0,0)) ((32,32,0) (39,39,63) (0,0,0)) ((40,32,0) (47,39,63) (0,0,0)) ((48,32,0) (55,39,63) (0,0,0)) ((56,32,0) (63,39,63) (0,0,0)) ((0,40,0) (7,47,63) (0,0,0)) ((8,40,0) (15,47,63) (0,0,0)) ((16,40,0) (23,47,63) (0,0,0)) ((24,40,0) (31,47,63) (0,0,0)) ((32,40,0) (39,47,63) (0,0,0)) ((40,40,0) (47,47,63) (0,0,0)) ((48,40,0) (55,47,63) (0,0,0)) ((56,40,0) (63,47,63) (0,0,0)) ((0,48,0) (7,55,63) (0,0,0)) ((8,48,0) (15,55,63) (0,0,0)) ((16,48,0) (23,55,63) (0,0,0)) ((24,48,0) (31,55,63) (0,0,0)) ((32,48,0) (39,55,63) (0,0,0)) ((40,48,0) (47,55,63) (0,0,0)) ((48,48,0) (55,55,63) (0,0,0)) ((56,48,0) (63,55,63) (0,0,0)) ((0,56,0) (7,63,63) (0,0,0)) ((8,56,0) (15,63,63) (0,0,0)) ((16,56,0) (23,63,63) (0,0,0)) ((24,56,0) (31,63,63) (0,0,0)) ((32,56,0) (39,63,63) (0,0,0)) ((40,56,0) (47,63,63) (0,0,0)) ((48,56,0) (55,63,63) (0,0,0)) ((56,56,0) (63,63,63) (0,0,0)) ) max of zphys_nd 1024 max of zlevels 1024 Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Adding random x-velocity perturbations Adding random y-velocity perturbations Problem name "abl" does not add any velocity perturbations. Based on cfl of one Compressible dt at level 0 would be: 0.04610555612 Anelastic dt at level 0 would be: 1.58743288 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 If there is water, Charnock relation with C_a=0.0185 will be used Writing native checkpoint ABL-MOST_chk00000 Writing SurfaceLayer variables at level 0 Checkpoint write time = 0.071886984 seconds. Writing native 3D plotfile ABL-MOST_plt00000 3DPlotfile write time = 0.05819561 seconds. TIME= 0 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 1 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610555612 Anelastic dt at level 0 would be: 1.58743288 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 1] ADVANCE from elapsed time = 0 to 0.1 with dt = 0.1 Making slow rhs at time 0 for fast variables advancing from 0 to 0.03333333333333 Fast time integration at level 0 from 0 to 0.03333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0 to 0.03333333333333 with dt = 0.03333333333333 using RHS created at 0 Making slow rhs at time 0.03333333333333 for fast variables advancing from 0 to 0.05 Fast time integration at level 0 from 0 to 0.025 with dt = 0.025 Fast time integration at level 0 from 0.025 to 0.05 with dt = 0.025 Time integration of scalars at level 0 from 0 to 0.05 with dt = 0.05 using RHS created at 0.03333333333333 Making slow rhs at time 0.05 for fast variables advancing from 0 to 0.1 Fast time integration at level 0 from 0 to 0.025 with dt = 0.025 Fast time integration at level 0 from 0.025 to 0.05 with dt = 0.025 Fast time integration at level 0 from 0.05 to 0.075 with dt = 0.025 Fast time integration at level 0 from 0.075 to 0.1 with dt = 0.025 Time integration of scalars at level 0 from 0 to 0.1 with dt = 0.1 using RHS created at 0.05 Done with advance_dycore at level 0 [Level 0 step 1] Advanced 262144 cells Coarse STEP 1 ends. TIME = 0.1 DT = 0.1 Timestep time = 0.412829817 seconds. TIME= 0.1 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 2 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.0461033641 Anelastic dt at level 0 would be: 1.584841736 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 2] ADVANCE from elapsed time = 0.1 to 0.2 with dt = 0.1 Making slow rhs at time 0.1 for fast variables advancing from 0.1 to 0.1333333333333 Fast time integration at level 0 from 0.1 to 0.1333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.1 to 0.1333333333333 with dt = 0.03333333333333 using RHS created at 0.1 Making slow rhs at time 0.1333333333333 for fast variables advancing from 0.1 to 0.15 Fast time integration at level 0 from 0.1 to 0.125 with dt = 0.025 Fast time integration at level 0 from 0.125 to 0.15 with dt = 0.025 Time integration of scalars at level 0 from 0.1 to 0.15 with dt = 0.05 using RHS created at 0.1333333333333 Making slow rhs at time 0.15 for fast variables advancing from 0.1 to 0.2 Fast time integration at level 0 from 0.1 to 0.125 with dt = 0.025 Fast time integration at level 0 from 0.125 to 0.15 with dt = 0.025 Fast time integration at level 0 from 0.15 to 0.175 with dt = 0.025 Fast time integration at level 0 from 0.175 to 0.2 with dt = 0.025 Time integration of scalars at level 0 from 0.1 to 0.2 with dt = 0.1 using RHS created at 0.15 Done with advance_dycore at level 0 [Level 0 step 2] Advanced 262144 cells Coarse STEP 2 ends. TIME = 0.2 DT = 0.1 Timestep time = 0.413299017 seconds. TIME= 0.2 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 3 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610223582 Anelastic dt at level 0 would be: 1.584892739 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 3] ADVANCE from elapsed time = 0.2 to 0.3 with dt = 0.1 Making slow rhs at time 0.2 for fast variables advancing from 0.2 to 0.2333333333333 Fast time integration at level 0 from 0.2 to 0.2333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.2 to 0.2333333333333 with dt = 0.03333333333333 using RHS created at 0.2 Making slow rhs at time 0.2333333333333 for fast variables advancing from 0.2 to 0.25 Fast time integration at level 0 from 0.2 to 0.225 with dt = 0.025 Fast time integration at level 0 from 0.225 to 0.25 with dt = 0.025 Time integration of scalars at level 0 from 0.2 to 0.25 with dt = 0.05 using RHS created at 0.2333333333333 Making slow rhs at time 0.25 for fast variables advancing from 0.2 to 0.3 Fast time integration at level 0 from 0.2 to 0.225 with dt = 0.025 Fast time integration at level 0 from 0.225 to 0.25 with dt = 0.025 Fast time integration at level 0 from 0.25 to 0.275 with dt = 0.025 Fast time integration at level 0 from 0.275 to 0.3 with dt = 0.025 Time integration of scalars at level 0 from 0.2 to 0.3 with dt = 0.1 using RHS created at 0.25 Done with advance_dycore at level 0 [Level 0 step 3] Advanced 262144 cells Coarse STEP 3 ends. TIME = 0.3 DT = 0.1 Timestep time = 0.418983735 seconds. TIME= 0.3 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 4 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610304225 Anelastic dt at level 0 would be: 1.584963339 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 4] ADVANCE from elapsed time = 0.3 to 0.4 with dt = 0.1 Making slow rhs at time 0.3 for fast variables advancing from 0.3 to 0.3333333333333 Fast time integration at level 0 from 0.3 to 0.3333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.3 to 0.3333333333333 with dt = 0.03333333333333 using RHS created at 0.3 Making slow rhs at time 0.3333333333333 for fast variables advancing from 0.3 to 0.35 Fast time integration at level 0 from 0.3 to 0.325 with dt = 0.025 Fast time integration at level 0 from 0.325 to 0.35 with dt = 0.025 Time integration of scalars at level 0 from 0.3 to 0.35 with dt = 0.05 using RHS created at 0.3333333333333 Making slow rhs at time 0.35 for fast variables advancing from 0.3 to 0.4 Fast time integration at level 0 from 0.3 to 0.325 with dt = 0.025 Fast time integration at level 0 from 0.325 to 0.35 with dt = 0.025 Fast time integration at level 0 from 0.35 to 0.375 with dt = 0.025 Fast time integration at level 0 from 0.375 to 0.4 with dt = 0.025 Time integration of scalars at level 0 from 0.3 to 0.4 with dt = 0.1 using RHS created at 0.35 Done with advance_dycore at level 0 [Level 0 step 4] Advanced 262144 cells Coarse STEP 4 ends. TIME = 0.4 DT = 0.1 Timestep time = 0.412567492 seconds. TIME= 0.4 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 5 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610417293 Anelastic dt at level 0 would be: 1.585716165 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 5] ADVANCE from elapsed time = 0.4 to 0.5 with dt = 0.1 Making slow rhs at time 0.4 for fast variables advancing from 0.4 to 0.4333333333333 Fast time integration at level 0 from 0.4 to 0.4333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.4 to 0.4333333333333 with dt = 0.03333333333333 using RHS created at 0.4 Making slow rhs at time 0.4333333333333 for fast variables advancing from 0.4 to 0.45 Fast time integration at level 0 from 0.4 to 0.425 with dt = 0.025 Fast time integration at level 0 from 0.425 to 0.45 with dt = 0.025 Time integration of scalars at level 0 from 0.4 to 0.45 with dt = 0.05 using RHS created at 0.4333333333333 Making slow rhs at time 0.45 for fast variables advancing from 0.4 to 0.5 Fast time integration at level 0 from 0.4 to 0.425 with dt = 0.025 Fast time integration at level 0 from 0.425 to 0.45 with dt = 0.025 Fast time integration at level 0 from 0.45 to 0.475 with dt = 0.025 Fast time integration at level 0 from 0.475 to 0.5 with dt = 0.025 Time integration of scalars at level 0 from 0.4 to 0.5 with dt = 0.1 using RHS created at 0.45 Done with advance_dycore at level 0 [Level 0 step 5] Advanced 262144 cells Coarse STEP 5 ends. TIME = 0.5 DT = 0.1 Timestep time = 0.415719285 seconds. TIME= 0.5 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 6 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.0461047537 Anelastic dt at level 0 would be: 1.58646891 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 6] ADVANCE from elapsed time = 0.5 to 0.6 with dt = 0.1 Making slow rhs at time 0.5 for fast variables advancing from 0.5 to 0.5333333333333 Fast time integration at level 0 from 0.5 to 0.5333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.5 to 0.5333333333333 with dt = 0.03333333333333 using RHS created at 0.5 Making slow rhs at time 0.5333333333333 for fast variables advancing from 0.5 to 0.55 Fast time integration at level 0 from 0.5 to 0.525 with dt = 0.025 Fast time integration at level 0 from 0.525 to 0.55 with dt = 0.025 Time integration of scalars at level 0 from 0.5 to 0.55 with dt = 0.05 using RHS created at 0.5333333333333 Making slow rhs at time 0.55 for fast variables advancing from 0.5 to 0.6 Fast time integration at level 0 from 0.5 to 0.525 with dt = 0.025 Fast time integration at level 0 from 0.525 to 0.55 with dt = 0.025 Fast time integration at level 0 from 0.55 to 0.575 with dt = 0.025 Fast time integration at level 0 from 0.575 to 0.6 with dt = 0.025 Time integration of scalars at level 0 from 0.5 to 0.6 with dt = 0.1 using RHS created at 0.55 Done with advance_dycore at level 0 [Level 0 step 6] Advanced 262144 cells Coarse STEP 6 ends. TIME = 0.6 DT = 0.1 Timestep time = 0.415176496 seconds. TIME= 0.6 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 7 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610400538 Anelastic dt at level 0 would be: 1.585981703 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 7] ADVANCE from elapsed time = 0.6 to 0.7 with dt = 0.1 Making slow rhs at time 0.6 for fast variables advancing from 0.6 to 0.6333333333333 Fast time integration at level 0 from 0.6 to 0.6333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.6 to 0.6333333333333 with dt = 0.03333333333333 using RHS created at 0.6 Making slow rhs at time 0.6333333333333 for fast variables advancing from 0.6 to 0.65 Fast time integration at level 0 from 0.6 to 0.625 with dt = 0.025 Fast time integration at level 0 from 0.625 to 0.65 with dt = 0.025 Time integration of scalars at level 0 from 0.6 to 0.65 with dt = 0.05 using RHS created at 0.6333333333333 Making slow rhs at time 0.65 for fast variables advancing from 0.6 to 0.7 Fast time integration at level 0 from 0.6 to 0.625 with dt = 0.025 Fast time integration at level 0 from 0.625 to 0.65 with dt = 0.025 Fast time integration at level 0 from 0.65 to 0.675 with dt = 0.025 Fast time integration at level 0 from 0.675 to 0.7 with dt = 0.025 Time integration of scalars at level 0 from 0.6 to 0.7 with dt = 0.1 using RHS created at 0.65 Done with advance_dycore at level 0 [Level 0 step 7] Advanced 262144 cells Coarse STEP 7 ends. TIME = 0.7 DT = 0.1 Timestep time = 0.418103667 seconds. TIME= 0.7 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 8 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610484793 Anelastic dt at level 0 would be: 1.586691923 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 8] ADVANCE from elapsed time = 0.7 to 0.8 with dt = 0.1 Making slow rhs at time 0.7 for fast variables advancing from 0.7 to 0.7333333333333 Fast time integration at level 0 from 0.7 to 0.7333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.7 to 0.7333333333333 with dt = 0.03333333333333 using RHS created at 0.7 Making slow rhs at time 0.7333333333333 for fast variables advancing from 0.7 to 0.75 Fast time integration at level 0 from 0.7 to 0.725 with dt = 0.025 Fast time integration at level 0 from 0.725 to 0.75 with dt = 0.025 Time integration of scalars at level 0 from 0.7 to 0.75 with dt = 0.05 using RHS created at 0.7333333333333 Making slow rhs at time 0.75 for fast variables advancing from 0.7 to 0.8 Fast time integration at level 0 from 0.7 to 0.725 with dt = 0.025 Fast time integration at level 0 from 0.725 to 0.75 with dt = 0.025 Fast time integration at level 0 from 0.75 to 0.775 with dt = 0.025 Fast time integration at level 0 from 0.775 to 0.8 with dt = 0.025 Time integration of scalars at level 0 from 0.7 to 0.8 with dt = 0.1 using RHS created at 0.75 Done with advance_dycore at level 0 [Level 0 step 8] Advanced 262144 cells Coarse STEP 8 ends. TIME = 0.8 DT = 0.1 Timestep time = 0.414128249 seconds. TIME= 0.8 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 9 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610442004 Anelastic dt at level 0 would be: 1.586003161 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 9] ADVANCE from elapsed time = 0.8 to 0.9 with dt = 0.1 Making slow rhs at time 0.8 for fast variables advancing from 0.8 to 0.8333333333333 Fast time integration at level 0 from 0.8 to 0.8333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.8 to 0.8333333333333 with dt = 0.03333333333333 using RHS created at 0.8 Making slow rhs at time 0.8333333333333 for fast variables advancing from 0.8 to 0.85 Fast time integration at level 0 from 0.8 to 0.825 with dt = 0.025 Fast time integration at level 0 from 0.825 to 0.85 with dt = 0.025 Time integration of scalars at level 0 from 0.8 to 0.85 with dt = 0.05 using RHS created at 0.8333333333333 Making slow rhs at time 0.85 for fast variables advancing from 0.8 to 0.9 Fast time integration at level 0 from 0.8 to 0.825 with dt = 0.025 Fast time integration at level 0 from 0.825 to 0.85 with dt = 0.025 Fast time integration at level 0 from 0.85 to 0.875 with dt = 0.025 Fast time integration at level 0 from 0.875 to 0.9 with dt = 0.025 Time integration of scalars at level 0 from 0.8 to 0.9 with dt = 0.1 using RHS created at 0.85 Done with advance_dycore at level 0 [Level 0 step 9] Advanced 262144 cells Coarse STEP 9 ends. TIME = 0.9 DT = 0.1 Timestep time = 0.413583831 seconds. TIME= 0.9 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Coarse STEP 10 starts ... Based on cfl of one Compressible dt at level 0 would be: 0.04610431257 Anelastic dt at level 0 would be: 1.58639669 Fixed dt at level 0 is: 0.1 smallest even ratio is: 4 [Level 0 step 10] ADVANCE from elapsed time = 0.9 to 1 with dt = 0.1 Making slow rhs at time 0.9 for fast variables advancing from 0.9 to 0.9333333333333 Fast time integration at level 0 from 0.9 to 0.9333333333333 with dt = 0.03333333333333 Time integration of scalars at level 0 from 0.9 to 0.9333333333333 with dt = 0.03333333333333 using RHS created at 0.9 Making slow rhs at time 0.9333333333333 for fast variables advancing from 0.9 to 0.95 Fast time integration at level 0 from 0.9 to 0.925 with dt = 0.025 Fast time integration at level 0 from 0.925 to 0.95 with dt = 0.025 Time integration of scalars at level 0 from 0.9 to 0.95 with dt = 0.05 using RHS created at 0.9333333333333 Making slow rhs at time 0.95 for fast variables advancing from 0.9 to 1 Fast time integration at level 0 from 0.9 to 0.925 with dt = 0.025 Fast time integration at level 0 from 0.925 to 0.95 with dt = 0.025 Fast time integration at level 0 from 0.95 to 0.975 with dt = 0.025 Fast time integration at level 0 from 0.975 to 1 with dt = 0.025 Time integration of scalars at level 0 from 0.9 to 1 with dt = 0.1 using RHS created at 0.95 Done with advance_dycore at level 0 [Level 0 step 10] Advanced 262144 cells Coarse STEP 10 ends. TIME = 1 DT = 0.1 Timestep time = 0.421958172 seconds. TIME= 1 MASS = 1073741824 RHO THETA = 3.221225472e+11 RHO SCALAR = 0 Writing native 3D plotfile ABL-MOST_plt00010 3DPlotfile write time = 0.048850131 seconds. Writing native checkpoint ABL-MOST_chk00010 Writing SurfaceLayer variables at level 0 Checkpoint write time = 0.059211778 seconds. Total Time: 4.59581831 Unused ParmParse Variables: [TOP]::amr.checkpoint_files_output(nvals = 1) :: [0] AMReX (26.05-41-gba3cb0c68650) finalized