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Writing timing results to: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout600/wangara.timing
 Program exited normally
--------------------------------------------------
run_scm.py total runtime: 3.52 s
--------------------------------------------------
[PASS] bs4_tout600: stats file: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout600/wangara_stats.nc
Running bs4_tout60_window90000_104400
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm.py -stats /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/stats/standard_stats.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout60_window90000_104400 -multicol C8/0.2:0.8/4 -batch_size 4 -tout 60 -stats_tstart 90000 -stats_tend 104400 wangara
Creating a custom hypergrid of parameters
 - Initial values file: '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in'
 - Spec: C8/0.2:0.8/4
Writing to '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout60_window90000_104400/wangara_multicol_params.in':
 - ngrdcol = 4
 - batch_size = 4
/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout60_window90000_104400/wangara.in
 - using install dir (latest): /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/install/gcc_DEBUG_PRECdouble
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone
=================== Running wangara ===================
2026/07/15 03:58:27
 
 --------------------------------------------------
 Latest git log entry
 --------------------------------------------------
 
 
A detailed git diff can be found at the end of this file

 --------------------------------------------------
 Tunable Parameters:
 --------------------------------------------------
    Parameter          Value
    ---------          -----
C1                           =      1.00000000000000000000
C1b                          =      1.00000000000000000000
C1c                          =      1.00000000000000000000
C2rt                         =      2.00000000000000000000
C2thl                        =      2.00000000000000000000
C2rtthl                      =      2.00000000000000000000
C4                           =      2.00000000000000000000
C_uu_shr                     =      0.40000000000000002220
C_uu_buoy                    =      0.29999999999999998890
C6rt                         =      2.00000000000000000000
C6rtb                        =      2.00000000000000000000
C6rtc                        =      1.00000000000000000000
C6thl                        =      2.00000000000000000000
C6thlb                       =      2.00000000000000000000
C6thlc                       =      1.00000000000000000000
C7                           =      0.50000000000000000000
C7b                          =      0.50000000000000000000
C7c                          =      0.50000000000000000000
C8                           =      0.20000000000000001110
C8b                          =      0.02000000000000000042
C10                          =      3.29999999999999982236
C11                          =      0.40000000000000002220
C11b                         =      0.40000000000000002220
C11c                         =      0.50000000000000000000
C12                          =      1.00000000000000000000
C13                          =      0.10000000000000000555
C14                          =      1.00000000000000000000
C_wp2_pr_dfsn                =      0.00000000000000000000
C_wp3_pr_tp                  =      0.00000000000000000000
C_wp3_pr_turb                =      1.00000000000000000000
C_wp3_pr_dfsn                =      0.00000000000000000000
C_wp2_splat                  =      0.00000000000000000000
C6rt_Lscale0                 =     14.00000000000000000000
C6thl_Lscale0                =     14.00000000000000000000
C7_Lscale0                   =      0.84999999999999997780
wpxp_L_thresh                =     60.00000000000000000000
c_K                          =      0.20000000000000001110
c_K1                         =      0.20000000000000001110
nu1                          =     20.00000000000000000000
c_K2                         =      0.02500000000000000139
nu2                          =      1.00000000000000000000
c_K6                         =      0.37500000000000000000
nu6                          =      5.00000000000000000000
c_K8                         =      5.00000000000000000000
nu8                          =     20.00000000000000000000
c_K9                         =      0.10000000000000000555
nu9                          =     10.00000000000000000000
nu10                         =      0.00000000000000000000
c_K_hm                       =      0.75000000000000000000
c_K_hmb                      =      0.75000000000000000000
K_hm_min_coef                =      0.10000000000000000555
nu_hm                        =      1.50000000000000000000
slope_coef_spread_DG_means_w =     21.00000000000000000000
pdf_component_stdev_factor_w =      1.00000000000000000000
coef_spread_DG_means_rt      =      0.80000000000000004441
coef_spread_DG_means_thl     =      0.80000000000000004441
gamma_coef                   =      0.25000000000000000000
gamma_coefb                  =      0.25000000000000000000
gamma_coefc                  =      5.00000000000000000000
mu                           =      0.00100000000000000002
beta                         =      1.00000000000000000000
lmin_coef                    =      0.50000000000000000000
omicron                      =      0.50000000000000000000
zeta_vrnce_rat               =      0.00000000000000000000
upsilon_precip_frac_rat      =      0.55000000000000004441
lambda0_stability_coef       =      0.02999999999999999889
mult_coef                    =      0.50000000000000000000
taumin                       =     90.00000000000000000000
taumax                       =   3600.00000000000000000000
Lscale_mu_coef               =      2.00000000000000000000
Lscale_pert_coef             =      0.10000000000000000555
alpha_corr                   =      0.14999999999999999445
Skw_denom_coef               =      4.00000000000000000000
c_K10                        =      1.00000000000000000000
c_K10h                       =      1.00000000000000000000
thlp2_rad_coef               =      1.00000000000000000000
thlp2_rad_cloud_frac_thresh  =      0.10000000000000000555
up2_sfc_coef                 =      4.00000000000000000000
Skw_max_mag                  =     10.00000000000000000000
C_invrs_tau_bkgnd            =      1.10000000000000008882
C_invrs_tau_sfc              =      0.10000000000000000555
C_invrs_tau_shear            =      0.14999999999999999445
C_invrs_tau_N2               =      0.40000000000000002220
C_invrs_tau_N2_wp2           =      0.20000000000000001110
C_invrs_tau_N2_xp2           =      0.05000000000000000278
C_invrs_tau_N2_wpxp          =      0.00000000000000000000
C_invrs_tau_N2_clear_wp3     =      1.00000000000000000000
C_invrs_tau_wpxp_Ri          =      0.34999999999999997780
C_invrs_tau_wpxp_N2_thresh   =      0.00033000000000000000
xp3_coef_base                =      0.25000000000000000000
xp3_coef_slope               =      0.01000000000000000021
altitude_threshold           =    100.00000000000000000000
rtp2_clip_coef               =      0.50000000000000000000
Cx_min                       =      0.33000000000000001554
Cx_max                       =      0.94999999999999995559
Richardson_num_min           =      0.25000000000000000000
Richardson_num_max           =    400.00000000000000000000
a3_coef_min                  =      1.00000000000000000000
a_const                      =      1.80000000000000004441
bv_efold                     =      5.00000000000000000000
wpxp_Ri_exp                  =      0.50000000000000000000
z_displace                   =     25.00000000000000000000
 --------------------------------------------------
 Preprocessing Directives:
 --------------------------------------------------
 -DCOAMPS_MICRO enabled
 -DTUNER disabled
 -Dnooverlap enabled
 -Draoffline enabled
 -DUSE_BUGSrad_ocast_random disabled
 --------------------------------------------------
 &model_setting
 --------------------------------------------------
 runtype = wangara
 nzmax =           50
 grid_type =            1
 deltaz =    40.000000000000000        40.000000000000000        40.000000000000000        40.000000000000000     
 zm_init =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 zm_top =    2300.0000000000000        2300.0000000000000        2300.0000000000000        2300.0000000000000     
 zt_grid_fname =
 zm_grid_fname =
 day =           15
 month =            8
 year =         1967
 lat_vals =   -34.600000000000001     
 lon_vals =    145.07222200000001     
 sfc_elevation =    0.0000000000000000     
 time_initial =    82800.000000000000     
 time_final =    111600.00000000000     
 dt_main =    60.000000000000000     
 dt_rad =    60.000000000000000     
 sfctype =            1
 T_sfc =    288.00000000000000        288.00000000000000        288.00000000000000        288.00000000000000     
 p_sfc =    102300.00000000000        102300.00000000000        102300.00000000000        102300.00000000000     
 sens_ht =    0.0000000000000000     
 latent_ht =    0.0000000000000000     
 fcor =   -8.2100000000000003E-005  -8.2100000000000003E-005  -8.2100000000000003E-005  -8.2100000000000003E-005
 fcor_y =    1.2004620798053302E-004   1.2004620798053302E-004   1.2004620798053302E-004   1.2004620798053302E-004
 T0 =    300.00000000000000     
 ts_nudge =    86400.000000000000     
 forcings_file_path =
 l_t_dependent =  T
 l_ignore_forcings =  T
 l_modify_ic_with_cubic_int =  T
 l_modify_bc_for_cnvg_test =  T
 l_input_xpwp_sfc =  F
 saturation_formula =            3
 thlm_sponge_damp_settings%l_sponge_damping =  F
 rtm_sponge_damp_settings%l_sponge_damping =  F
 uv_sponge_damp_settings%l_sponge_damping =  F
 wp2_sponge_damp_settings%l_sponge_damping =  F
 wp3_sponge_damp_settings%l_sponge_damping =  F
 up2_vp2_sponge_damp_settings%l_sponge_damping =  F
 thlm_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 thlm_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 thlm_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 rtm_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 rtm_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 rtm_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 uv_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 uv_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 uv_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 wp2_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 wp2_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 wp2_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 wp3_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 wp3_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 wp3_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 up2_vp2_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 up2_vp2_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 up2_vp2_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 l_soil_veg =  F
 l_restart =  F
 l_input_fields =  F
 restart_path_case = restart/wangara
 time_restart =    0.0000000000000000     
 debug_level =            2
 sclr_dim =            0
 edsclr_dim =            0
 iisclr_thl =           -2
 iisclr_rt =           -1
 iisclr_CO2 =           -1
 sclr_tol = 
 --------------------------------------------------
 &stats_setting
 --------------------------------------------------
 l_stats =  T
 output_dir = /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout60_window90000_104400/
 fname_prefix = wangara
 stats_output_filename = wangara_stats.nc
 stats_tsamp =    60.000000000000000     
 stats_tout =    60.000000000000000     
 stats_tstart =    90000.000000000000     
 stats_tend =    104400.00000000000     
 l_allow_small_stats_tout =  F
 Constant flags:
 l_pos_def =  F
 l_gamma_Skw =  T
 Constant tolerances [units]
 rt_tol [kg/kg] =    1.0000000000000000E-008
 thl_tol [K] =    1.0000000000000000E-002
 w_tol [m/s] =    2.0000000000000000E-002
 --------------------------------------------------
 &microphysics_setting
 --------------------------------------------------
 microphys_scheme = none
 l_cloud_sed =  F
 sigma_g =    1.5000000000000000     
 l_graupel =  F
 l_hail =  F
 l_seifert_beheng =  F
 l_predict_Nc =  F
 l_const_Nc_in_cloud =  F
 specify_aerosol = morrison_lognormal
 l_subgrid_w =  T
 l_arctic_nucl =  F
 l_cloud_edge_activation =  F
 l_fix_pgam =  F
 l_in_cloud_Nc_diff =  T
 l_var_covar_src =  F
 l_upwind_diff_sed =  F
 lh_microphys_type = disabled
 lh_num_samples =            2
 lh_sequence_length =            1
 lh_seed =         5489
 l_fix_w_chi_eta_correlations =  T
 l_silhs_KK_convergence_adj_mean =  F
 importance_prob_thresh =    1.0000000000000000E-008
 host_dx =    1000000.0000000000     
 host_dy =    1000000.0000000000     
 hmp2_ip_on_hmm2_ip_slope%rr =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%ri =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%rs =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%rg =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Nr =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Ni =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Ni =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Ng =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_intrcpt%rr =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%ri =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%rs =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%rg =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Nr =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Ni =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Ni =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Ng =   0.54000000000000004     
 Ncnp2_on_Ncnm2 =    1.0000000000000000     
 C_evap =   0.85999999999999999     
 r_0 =    2.5000000000000001E-005
 microphys_start_time =    0.0000000000000000     
 Nc0_in_cloud =    100000000.00000000     
 ccnconst =    120.00000000000000     
 ccnexpnt =   0.40000000596046448     
 aer_rm1 =    1.1000000021965661E-008
 aer_rm2 =    5.9999997858994902E-008
 aer_n1 =    125000000.00000000     
 aer_n2 =    65000000.000000000     
 aer_sig1 =    1.2000000476837158     
 aer_sig2 =    1.7000000476837158     
 pgam_fixed =    5.0000000000000000     
 precip_frac_calc_type =            2
 --------------------------------------------------
 &SILHS_setting
 --------------------------------------------------
 Warning: missing correlation input file(s): ../input/case_setups/wangara_corr_array_cloud.in and/or ../input/case_setups/wangara_corr_array_below.in
 The default correlation arrays will be used.
 --------------------------------------------------
 &radiation_setting
 --------------------------------------------------
 rad_scheme = none
 sol_const =    1367.0000000000000     
 alvdr =   0.10000000000000001     
 alvdf =   0.10000000000000001     
 alndr =   0.10000000000000001     
 alndf =   0.10000000000000001     
 radiation_top =    50000.000000000000     
 F0 =    100.00000000000000     
 F1 =    20.000000000000000     
 kappa =    119.00000000000000     
 gc =   0.85999999999999999     
 omega =   0.99650000000000005     
 slr =    1.0000000000000000     
 l_rad_above_cloud =  F
 l_sw_radiation =  F
 l_fix_cos_solar_zen =  F
 l_use_default_std_atmosphere =  T
 Fs_values =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 cos_solar_zen_values =   -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000     
 cos_solar_zen_times =   -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000     
 eff_drop_radius =    1.0000000000000001E-005
 --------------------------------------------------
 &configurable_clubb_flags_nl
 --------------------------------------------------
 iiPDF_type =            1
 ipdf_call_placement =            2
 penta_solve_method =            2
 tridiag_solve_method =            2
 grid_remap_method =            1
 grid_adapt_in_time_method =            0
 l_use_precip_frac =  T
 l_predict_upwp_vpwp =  T
 l_ho_nontrad_coriolis =  F
 l_ho_trad_coriolis =  F
 l_min_wp2_from_corr_wx =  F
 l_min_xp2_from_corr_wx =  T
 l_C2_cloud_frac =  F
 l_diffuse_rtm_and_thlm =  F
 l_stability_correct_Kh_N2_zm =  F
 l_calc_thlp2_rad =  F
 l_upwind_xpyp_ta =  T
 l_upwind_xm_ma =  T
 l_uv_nudge =  F
 l_rtm_nudge =  F
 l_tke_aniso =  T
 l_vert_avg_closure =  F
 l_trapezoidal_rule_zt =  F
 l_trapezoidal_rule_zm =  F
 l_call_pdf_closure_twice =  F
 l_standard_term_ta =  F
 l_partial_upwind_wp3 =  F
 l_godunov_upwind_wpxp_ta =  F
 l_godunov_upwind_xpyp_ta =  F
 l_use_cloud_cover =  F
 l_diagnose_correlations =  F
 l_calc_w_corr =  F
 l_const_Nc_in_cloud =  F
 l_fix_w_chi_eta_correlations =  T
 l_stability_correct_tau_zm =  F
 l_damp_wp2_using_em =  T
 l_do_expldiff_rtm_thlm =  F
 l_Lscale_plume_centered =  F
 l_diag_Lscale_from_tau =  T
 l_use_C7_Richardson =  T
 l_use_C11_Richardson =  F
 l_use_shear_Richardson =  F
 l_brunt_vaisala_freq_moist =  F
 l_use_thvm_in_bv_freq =  F
 l_rcm_supersat_adj =  T
 l_damp_wp3_Skw_squared =  T
 l_prescribed_avg_deltaz =  F
 l_lmm_stepping =  F
 l_e3sm_config =  F
 l_vary_convect_depth =  F
 l_use_tke_in_wp3_pr_turb_term =  T
 l_use_tke_in_wp2_wp3_K_dfsn =  F
 l_use_wp3_lim_with_smth_Heaviside =  F
 l_smooth_Heaviside_tau_wpxp =  T
 l_modify_limiters_for_cnvg_test =  F
 l_enable_relaxed_clipping =  F
 l_linearize_pbl_winds =  F
 l_mono_flux_lim_thlm =  T
 l_mono_flux_lim_rtm =  T
 l_mono_flux_lim_um =  T
 l_mono_flux_lim_vm =  T
 l_mono_flux_lim_spikefix =  T
 l_host_applies_sfc_fluxes =  F
 l_wp2_fill_holes_tke =  T
 l_add_dycore_grid =  F
 --------------------------------------------------
 git diff src/
 --------------------------------------------------
 See *setup.txt file in output folder

 Path to sounding: wangara_sounding.in
 File exists?  T
 Path to sclr_sounding: wangara_sclr_sounding.in
 File exists?  T
 Path to edsclr_sounding: wangara_edsclr_sounding.in
 File exists?  T
 Reading in sounding information
 z =    0.0000000000000000        50.000000000000000        100.00000000000000        150.00000000000000        200.00000000000000        250.00000000000000        300.00000000000000        350.00000000000000        400.00000000000000        500.00000000000000        550.00000000000000        600.00000000000000        700.00000000000000        750.00000000000000        800.00000000000000        850.00000000000000        900.00000000000000        950.00000000000000        1000.0000000000000        1100.0000000000000        1200.0000000000000        1300.0000000000000        1400.0000000000000        1500.0000000000000        1600.0000000000000        1700.0000000000000        1800.0000000000000        1900.0000000000000        2000.0000000000000        2100.0000000000000        2200.0000000000000        2300.0000000000000     
 u =    0.0000000000000000       -2.8399999999999999       -2.9199999999999999       -2.8999999999999999       -2.7900000000000000       -2.7900000000000000       -3.1200000000000001       -3.3900000000000001       -3.0900000000000003       -2.4900000000000002       -2.6600000000000001       -2.5833333333333335       -2.4300000000000002       -2.4199999999999999       -2.4500000000000002       -2.4100000000000001       -2.2799999999999998       -2.2900000000000000       -2.5499999999999998       -2.2900000000000000       -1.9299999999999999       -2.1000000000000001       -1.4500000000000000       -1.2000000000000000       -1.1899999999999999       -1.4900000000000000      -0.69999999999999996        5.0000000000000044E-002  0.50000000000000000       0.50000000000000000       0.50000000000000000       0.50000000000000000     
 v =    0.0000000000000000        2.9999999999999999E-002 -0.38000000000000000      -0.62000000000000000      -0.56999999999999995      -0.51000000000000001      -0.51000000000000001      -0.53000000000000003      -0.47666666666666668      -0.37000000000000000      -0.29999999999999999      -0.31666666666666665      -0.34999999999999998      -0.44000000000000000      -0.47999999999999998      -0.62000000000000000      -0.76000000000000001      -0.91000000000000003       -1.1599999999999999       -1.4099999999999999      -0.90000000000000002      -0.28000000000000003        7.0000000000000007E-002   8.9999999999999997E-002  0.26000000000000001        1.1499999999999999        1.7200000000000000        1.4700000000000000        1.1000000000000001        1.1000000000000001        1.1000000000000001        1.1000000000000001     
 ug =   -5.5000000000000000       -5.3600000000000003       -5.2100000000000000       -5.0700000000000003       -4.9199999999999999       -4.7800000000000002       -4.6299999999999999       -4.4900000000000002       -4.3433333333333337       -4.0499999999999998       -3.8999999999999999       -3.7566666666666668       -3.4700000000000002       -3.3199999999999998       -3.1800000000000002       -3.0299999999999998       -2.8900000000000001       -2.7400000000000002       -2.6000000000000001       -2.4600000000000000       -2.3199999999999998       -2.1800000000000002       -2.0400000000000000       -1.8999999999999999       -1.7600000000000000       -1.6200000000000001       -1.4800000000000000       -1.3400000000000001       -1.2000000000000000       -1.2000000000000000       -1.2000000000000000       -1.2000000000000000     
 vg =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 theta =    276.85000000000002        276.91000000000003        277.68000000000001        279.82999999999998        280.81000000000000        281.39999999999998        281.68000000000001        281.97000000000003        281.97000000000003        281.97000000000003        281.97000000000003        281.97333333333336        281.98000000000002        282.29000000000002        282.62000000000000        282.83999999999997        283.06000000000000        283.19000000000000        283.62000000000000        284.72000000000003        285.42000000000002        285.92000000000002        287.17000000000002        288.33999999999997        288.88999999999999        289.56000000000000        290.56999999999999        290.94999999999999        291.01999999999998        291.08999999999997        291.16000000000003        291.23000000000002     
 rt =    4.1999999999999997E-003   3.7000000000000002E-003   3.5000000000000001E-003   3.8000000000000000E-003   3.8000000000000000E-003   3.8000000000000000E-003   3.7000000000000002E-003   3.5999999999999999E-003   3.5000000000000001E-003   3.3000000000000000E-003   3.2000000000000002E-003   3.0999999999999999E-003   2.8999999999999998E-003   2.7000000000000001E-003   2.5000000000000001E-003   2.3000000000000000E-003   2.2000000000000001E-003   2.0999999999999999E-003   2.0000000000000000E-003   1.8000000000000000E-003   1.5000000000000000E-003   1.1999999999999999E-003   8.0000000000000004E-004   1.0000000000000000E-003   8.0000000000000004E-004   6.9999999999999999E-004   6.9999999999999999E-004   6.9999999999999999E-004   5.9999999999999995E-004   5.0000000000000001E-004   5.0000000000000001E-004   4.0000000000000002E-004
 p_in_Pa =   -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998     
 subs =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 When the l_diag_Lscale_from_tau flag is enabled, C2rt must have a value of 1.
 C2rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2thl must have a value of 1.
 C2thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2rtthl must have a value of 1.
 C2rtthl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rt must have a value of 1.
 C6rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rtb must have a value of 1.
 C6rtb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thl must have a value of 1.
 C6thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thlb must have a value of 1.
 C6thlb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2rt must have a value of 1.
 C2rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2thl must have a value of 1.
 C2thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2rtthl must have a value of 1.
 C2rtthl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rt must have a value of 1.
 C6rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rtb must have a value of 1.
 C6rtb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thl must have a value of 1.
 C6thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thlb must have a value of 1.
 C6thlb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
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Writing timing results to: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout60_window90000_104400/wangara.timing
 Program exited normally
--------------------------------------------------
run_scm.py total runtime: 3.39 s
--------------------------------------------------
[PASS] bs4_tout60_window90000_104400: stats file: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout60_window90000_104400/wangara_stats.nc
Running bs4_tout300_window90000_104400
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm.py -stats /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/stats/standard_stats.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout300_window90000_104400 -multicol C8/0.2:0.8/4 -batch_size 4 -tout 300 -stats_tstart 90000 -stats_tend 104400 wangara
Creating a custom hypergrid of parameters
 - Initial values file: '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in'
 - Spec: C8/0.2:0.8/4
Writing to '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout300_window90000_104400/wangara_multicol_params.in':
 - ngrdcol = 4
 - batch_size = 4
/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout300_window90000_104400/wangara.in
 - using install dir (latest): /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/install/gcc_DEBUG_PRECdouble
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone
=================== Running wangara ===================
2026/07/15 03:58:31
 
 --------------------------------------------------
 Latest git log entry
 --------------------------------------------------
 
 
A detailed git diff can be found at the end of this file

 --------------------------------------------------
 Tunable Parameters:
 --------------------------------------------------
    Parameter          Value
    ---------          -----
C1                           =      1.00000000000000000000
C1b                          =      1.00000000000000000000
C1c                          =      1.00000000000000000000
C2rt                         =      2.00000000000000000000
C2thl                        =      2.00000000000000000000
C2rtthl                      =      2.00000000000000000000
C4                           =      2.00000000000000000000
C_uu_shr                     =      0.40000000000000002220
C_uu_buoy                    =      0.29999999999999998890
C6rt                         =      2.00000000000000000000
C6rtb                        =      2.00000000000000000000
C6rtc                        =      1.00000000000000000000
C6thl                        =      2.00000000000000000000
C6thlb                       =      2.00000000000000000000
C6thlc                       =      1.00000000000000000000
C7                           =      0.50000000000000000000
C7b                          =      0.50000000000000000000
C7c                          =      0.50000000000000000000
C8                           =      0.20000000000000001110
C8b                          =      0.02000000000000000042
C10                          =      3.29999999999999982236
C11                          =      0.40000000000000002220
C11b                         =      0.40000000000000002220
C11c                         =      0.50000000000000000000
C12                          =      1.00000000000000000000
C13                          =      0.10000000000000000555
C14                          =      1.00000000000000000000
C_wp2_pr_dfsn                =      0.00000000000000000000
C_wp3_pr_tp                  =      0.00000000000000000000
C_wp3_pr_turb                =      1.00000000000000000000
C_wp3_pr_dfsn                =      0.00000000000000000000
C_wp2_splat                  =      0.00000000000000000000
C6rt_Lscale0                 =     14.00000000000000000000
C6thl_Lscale0                =     14.00000000000000000000
C7_Lscale0                   =      0.84999999999999997780
wpxp_L_thresh                =     60.00000000000000000000
c_K                          =      0.20000000000000001110
c_K1                         =      0.20000000000000001110
nu1                          =     20.00000000000000000000
c_K2                         =      0.02500000000000000139
nu2                          =      1.00000000000000000000
c_K6                         =      0.37500000000000000000
nu6                          =      5.00000000000000000000
c_K8                         =      5.00000000000000000000
nu8                          =     20.00000000000000000000
c_K9                         =      0.10000000000000000555
nu9                          =     10.00000000000000000000
nu10                         =      0.00000000000000000000
c_K_hm                       =      0.75000000000000000000
c_K_hmb                      =      0.75000000000000000000
K_hm_min_coef                =      0.10000000000000000555
nu_hm                        =      1.50000000000000000000
slope_coef_spread_DG_means_w =     21.00000000000000000000
pdf_component_stdev_factor_w =      1.00000000000000000000
coef_spread_DG_means_rt      =      0.80000000000000004441
coef_spread_DG_means_thl     =      0.80000000000000004441
gamma_coef                   =      0.25000000000000000000
gamma_coefb                  =      0.25000000000000000000
gamma_coefc                  =      5.00000000000000000000
mu                           =      0.00100000000000000002
beta                         =      1.00000000000000000000
lmin_coef                    =      0.50000000000000000000
omicron                      =      0.50000000000000000000
zeta_vrnce_rat               =      0.00000000000000000000
upsilon_precip_frac_rat      =      0.55000000000000004441
lambda0_stability_coef       =      0.02999999999999999889
mult_coef                    =      0.50000000000000000000
taumin                       =     90.00000000000000000000
taumax                       =   3600.00000000000000000000
Lscale_mu_coef               =      2.00000000000000000000
Lscale_pert_coef             =      0.10000000000000000555
alpha_corr                   =      0.14999999999999999445
Skw_denom_coef               =      4.00000000000000000000
c_K10                        =      1.00000000000000000000
c_K10h                       =      1.00000000000000000000
thlp2_rad_coef               =      1.00000000000000000000
thlp2_rad_cloud_frac_thresh  =      0.10000000000000000555
up2_sfc_coef                 =      4.00000000000000000000
Skw_max_mag                  =     10.00000000000000000000
C_invrs_tau_bkgnd            =      1.10000000000000008882
C_invrs_tau_sfc              =      0.10000000000000000555
C_invrs_tau_shear            =      0.14999999999999999445
C_invrs_tau_N2               =      0.40000000000000002220
C_invrs_tau_N2_wp2           =      0.20000000000000001110
C_invrs_tau_N2_xp2           =      0.05000000000000000278
C_invrs_tau_N2_wpxp          =      0.00000000000000000000
C_invrs_tau_N2_clear_wp3     =      1.00000000000000000000
C_invrs_tau_wpxp_Ri          =      0.34999999999999997780
C_invrs_tau_wpxp_N2_thresh   =      0.00033000000000000000
xp3_coef_base                =      0.25000000000000000000
xp3_coef_slope               =      0.01000000000000000021
altitude_threshold           =    100.00000000000000000000
rtp2_clip_coef               =      0.50000000000000000000
Cx_min                       =      0.33000000000000001554
Cx_max                       =      0.94999999999999995559
Richardson_num_min           =      0.25000000000000000000
Richardson_num_max           =    400.00000000000000000000
a3_coef_min                  =      1.00000000000000000000
a_const                      =      1.80000000000000004441
bv_efold                     =      5.00000000000000000000
wpxp_Ri_exp                  =      0.50000000000000000000
z_displace                   =     25.00000000000000000000
 --------------------------------------------------
 Preprocessing Directives:
 --------------------------------------------------
 -DCOAMPS_MICRO enabled
 -DTUNER disabled
 -Dnooverlap enabled
 -Draoffline enabled
 -DUSE_BUGSrad_ocast_random disabled
 --------------------------------------------------
 &model_setting
 --------------------------------------------------
 runtype = wangara
 nzmax =           50
 grid_type =            1
 deltaz =    40.000000000000000        40.000000000000000        40.000000000000000        40.000000000000000     
 zm_init =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 zm_top =    2300.0000000000000        2300.0000000000000        2300.0000000000000        2300.0000000000000     
 zt_grid_fname =
 zm_grid_fname =
 day =           15
 month =            8
 year =         1967
 lat_vals =   -34.600000000000001     
 lon_vals =    145.07222200000001     
 sfc_elevation =    0.0000000000000000     
 time_initial =    82800.000000000000     
 time_final =    111600.00000000000     
 dt_main =    60.000000000000000     
 dt_rad =    60.000000000000000     
 sfctype =            1
 T_sfc =    288.00000000000000        288.00000000000000        288.00000000000000        288.00000000000000     
 p_sfc =    102300.00000000000        102300.00000000000        102300.00000000000        102300.00000000000     
 sens_ht =    0.0000000000000000     
 latent_ht =    0.0000000000000000     
 fcor =   -8.2100000000000003E-005  -8.2100000000000003E-005  -8.2100000000000003E-005  -8.2100000000000003E-005
 fcor_y =    1.2004620798053302E-004   1.2004620798053302E-004   1.2004620798053302E-004   1.2004620798053302E-004
 T0 =    300.00000000000000     
 ts_nudge =    86400.000000000000     
 forcings_file_path =
 l_t_dependent =  T
 l_ignore_forcings =  T
 l_modify_ic_with_cubic_int =  T
 l_modify_bc_for_cnvg_test =  T
 l_input_xpwp_sfc =  F
 saturation_formula =            3
 thlm_sponge_damp_settings%l_sponge_damping =  F
 rtm_sponge_damp_settings%l_sponge_damping =  F
 uv_sponge_damp_settings%l_sponge_damping =  F
 wp2_sponge_damp_settings%l_sponge_damping =  F
 wp3_sponge_damp_settings%l_sponge_damping =  F
 up2_vp2_sponge_damp_settings%l_sponge_damping =  F
 thlm_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 thlm_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 thlm_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 rtm_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 rtm_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 rtm_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 uv_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 uv_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 uv_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 wp2_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 wp2_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 wp2_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 wp3_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 wp3_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 wp3_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 up2_vp2_sponge_damp_settings%tau_sponge_damp_min =    60.000000000000000     
 up2_vp2_sponge_damp_settings%tau_sponge_damp_max =    1800.0000000000000     
 up2_vp2_sponge_damp_settings%sponge_damp_depth =   0.25000000000000000     
 l_soil_veg =  F
 l_restart =  F
 l_input_fields =  F
 restart_path_case = restart/wangara
 time_restart =    0.0000000000000000     
 debug_level =            2
 sclr_dim =            0
 edsclr_dim =            0
 iisclr_thl =           -2
 iisclr_rt =           -1
 iisclr_CO2 =           -1
 sclr_tol = 
 --------------------------------------------------
 &stats_setting
 --------------------------------------------------
 l_stats =  T
 output_dir = /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout300_window90000_104400/
 fname_prefix = wangara
 stats_output_filename = wangara_stats.nc
 stats_tsamp =    60.000000000000000     
 stats_tout =    300.00000000000000     
 stats_tstart =    90000.000000000000     
 stats_tend =    104400.00000000000     
 l_allow_small_stats_tout =  F
 Constant flags:
 l_pos_def =  F
 l_gamma_Skw =  T
 Constant tolerances [units]
 rt_tol [kg/kg] =    1.0000000000000000E-008
 thl_tol [K] =    1.0000000000000000E-002
 w_tol [m/s] =    2.0000000000000000E-002
 --------------------------------------------------
 &microphysics_setting
 --------------------------------------------------
 microphys_scheme = none
 l_cloud_sed =  F
 sigma_g =    1.5000000000000000     
 l_graupel =  F
 l_hail =  F
 l_seifert_beheng =  F
 l_predict_Nc =  F
 l_const_Nc_in_cloud =  F
 specify_aerosol = morrison_lognormal
 l_subgrid_w =  T
 l_arctic_nucl =  F
 l_cloud_edge_activation =  F
 l_fix_pgam =  F
 l_in_cloud_Nc_diff =  T
 l_var_covar_src =  F
 l_upwind_diff_sed =  F
 lh_microphys_type = disabled
 lh_num_samples =            2
 lh_sequence_length =            1
 lh_seed =         5489
 l_fix_w_chi_eta_correlations =  T
 l_silhs_KK_convergence_adj_mean =  F
 importance_prob_thresh =    1.0000000000000000E-008
 host_dx =    1000000.0000000000     
 host_dy =    1000000.0000000000     
 hmp2_ip_on_hmm2_ip_slope%rr =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%ri =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%rs =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%rg =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Nr =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Ni =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Ni =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_slope%Ng =    2.1200000000000000E-005
 hmp2_ip_on_hmm2_ip_intrcpt%rr =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%ri =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%rs =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%rg =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Nr =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Ni =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Ni =   0.54000000000000004     
 hmp2_ip_on_hmm2_ip_intrcpt%Ng =   0.54000000000000004     
 Ncnp2_on_Ncnm2 =    1.0000000000000000     
 C_evap =   0.85999999999999999     
 r_0 =    2.5000000000000001E-005
 microphys_start_time =    0.0000000000000000     
 Nc0_in_cloud =    100000000.00000000     
 ccnconst =    120.00000000000000     
 ccnexpnt =   0.40000000596046448     
 aer_rm1 =    1.1000000021965661E-008
 aer_rm2 =    5.9999997858994902E-008
 aer_n1 =    125000000.00000000     
 aer_n2 =    65000000.000000000     
 aer_sig1 =    1.2000000476837158     
 aer_sig2 =    1.7000000476837158     
 pgam_fixed =    5.0000000000000000     
 precip_frac_calc_type =            2
 --------------------------------------------------
 &SILHS_setting
 --------------------------------------------------
 Warning: missing correlation input file(s): ../input/case_setups/wangara_corr_array_cloud.in and/or ../input/case_setups/wangara_corr_array_below.in
 The default correlation arrays will be used.
 --------------------------------------------------
 &radiation_setting
 --------------------------------------------------
 rad_scheme = none
 sol_const =    1367.0000000000000     
 alvdr =   0.10000000000000001     
 alvdf =   0.10000000000000001     
 alndr =   0.10000000000000001     
 alndf =   0.10000000000000001     
 radiation_top =    50000.000000000000     
 F0 =    100.00000000000000     
 F1 =    20.000000000000000     
 kappa =    119.00000000000000     
 gc =   0.85999999999999999     
 omega =   0.99650000000000005     
 slr =    1.0000000000000000     
 l_rad_above_cloud =  F
 l_sw_radiation =  F
 l_fix_cos_solar_zen =  F
 l_use_default_std_atmosphere =  T
 Fs_values =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 cos_solar_zen_values =   -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000     
 cos_solar_zen_times =   -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000       -999.00000000000000     
 eff_drop_radius =    1.0000000000000001E-005
 --------------------------------------------------
 &configurable_clubb_flags_nl
 --------------------------------------------------
 iiPDF_type =            1
 ipdf_call_placement =            2
 penta_solve_method =            2
 tridiag_solve_method =            2
 grid_remap_method =            1
 grid_adapt_in_time_method =            0
 l_use_precip_frac =  T
 l_predict_upwp_vpwp =  T
 l_ho_nontrad_coriolis =  F
 l_ho_trad_coriolis =  F
 l_min_wp2_from_corr_wx =  F
 l_min_xp2_from_corr_wx =  T
 l_C2_cloud_frac =  F
 l_diffuse_rtm_and_thlm =  F
 l_stability_correct_Kh_N2_zm =  F
 l_calc_thlp2_rad =  F
 l_upwind_xpyp_ta =  T
 l_upwind_xm_ma =  T
 l_uv_nudge =  F
 l_rtm_nudge =  F
 l_tke_aniso =  T
 l_vert_avg_closure =  F
 l_trapezoidal_rule_zt =  F
 l_trapezoidal_rule_zm =  F
 l_call_pdf_closure_twice =  F
 l_standard_term_ta =  F
 l_partial_upwind_wp3 =  F
 l_godunov_upwind_wpxp_ta =  F
 l_godunov_upwind_xpyp_ta =  F
 l_use_cloud_cover =  F
 l_diagnose_correlations =  F
 l_calc_w_corr =  F
 l_const_Nc_in_cloud =  F
 l_fix_w_chi_eta_correlations =  T
 l_stability_correct_tau_zm =  F
 l_damp_wp2_using_em =  T
 l_do_expldiff_rtm_thlm =  F
 l_Lscale_plume_centered =  F
 l_diag_Lscale_from_tau =  T
 l_use_C7_Richardson =  T
 l_use_C11_Richardson =  F
 l_use_shear_Richardson =  F
 l_brunt_vaisala_freq_moist =  F
 l_use_thvm_in_bv_freq =  F
 l_rcm_supersat_adj =  T
 l_damp_wp3_Skw_squared =  T
 l_prescribed_avg_deltaz =  F
 l_lmm_stepping =  F
 l_e3sm_config =  F
 l_vary_convect_depth =  F
 l_use_tke_in_wp3_pr_turb_term =  T
 l_use_tke_in_wp2_wp3_K_dfsn =  F
 l_use_wp3_lim_with_smth_Heaviside =  F
 l_smooth_Heaviside_tau_wpxp =  T
 l_modify_limiters_for_cnvg_test =  F
 l_enable_relaxed_clipping =  F
 l_linearize_pbl_winds =  F
 l_mono_flux_lim_thlm =  T
 l_mono_flux_lim_rtm =  T
 l_mono_flux_lim_um =  T
 l_mono_flux_lim_vm =  T
 l_mono_flux_lim_spikefix =  T
 l_host_applies_sfc_fluxes =  F
 l_wp2_fill_holes_tke =  T
 l_add_dycore_grid =  F
 --------------------------------------------------
 git diff src/
 --------------------------------------------------
 See *setup.txt file in output folder

 Path to sounding: wangara_sounding.in
 File exists?  T
 Path to sclr_sounding: wangara_sclr_sounding.in
 File exists?  T
 Path to edsclr_sounding: wangara_edsclr_sounding.in
 File exists?  T
 Reading in sounding information
 z =    0.0000000000000000        50.000000000000000        100.00000000000000        150.00000000000000        200.00000000000000        250.00000000000000        300.00000000000000        350.00000000000000        400.00000000000000        500.00000000000000        550.00000000000000        600.00000000000000        700.00000000000000        750.00000000000000        800.00000000000000        850.00000000000000        900.00000000000000        950.00000000000000        1000.0000000000000        1100.0000000000000        1200.0000000000000        1300.0000000000000        1400.0000000000000        1500.0000000000000        1600.0000000000000        1700.0000000000000        1800.0000000000000        1900.0000000000000        2000.0000000000000        2100.0000000000000        2200.0000000000000        2300.0000000000000     
 u =    0.0000000000000000       -2.8399999999999999       -2.9199999999999999       -2.8999999999999999       -2.7900000000000000       -2.7900000000000000       -3.1200000000000001       -3.3900000000000001       -3.0900000000000003       -2.4900000000000002       -2.6600000000000001       -2.5833333333333335       -2.4300000000000002       -2.4199999999999999       -2.4500000000000002       -2.4100000000000001       -2.2799999999999998       -2.2900000000000000       -2.5499999999999998       -2.2900000000000000       -1.9299999999999999       -2.1000000000000001       -1.4500000000000000       -1.2000000000000000       -1.1899999999999999       -1.4900000000000000      -0.69999999999999996        5.0000000000000044E-002  0.50000000000000000       0.50000000000000000       0.50000000000000000       0.50000000000000000     
 v =    0.0000000000000000        2.9999999999999999E-002 -0.38000000000000000      -0.62000000000000000      -0.56999999999999995      -0.51000000000000001      -0.51000000000000001      -0.53000000000000003      -0.47666666666666668      -0.37000000000000000      -0.29999999999999999      -0.31666666666666665      -0.34999999999999998      -0.44000000000000000      -0.47999999999999998      -0.62000000000000000      -0.76000000000000001      -0.91000000000000003       -1.1599999999999999       -1.4099999999999999      -0.90000000000000002      -0.28000000000000003        7.0000000000000007E-002   8.9999999999999997E-002  0.26000000000000001        1.1499999999999999        1.7200000000000000        1.4700000000000000        1.1000000000000001        1.1000000000000001        1.1000000000000001        1.1000000000000001     
 ug =   -5.5000000000000000       -5.3600000000000003       -5.2100000000000000       -5.0700000000000003       -4.9199999999999999       -4.7800000000000002       -4.6299999999999999       -4.4900000000000002       -4.3433333333333337       -4.0499999999999998       -3.8999999999999999       -3.7566666666666668       -3.4700000000000002       -3.3199999999999998       -3.1800000000000002       -3.0299999999999998       -2.8900000000000001       -2.7400000000000002       -2.6000000000000001       -2.4600000000000000       -2.3199999999999998       -2.1800000000000002       -2.0400000000000000       -1.8999999999999999       -1.7600000000000000       -1.6200000000000001       -1.4800000000000000       -1.3400000000000001       -1.2000000000000000       -1.2000000000000000       -1.2000000000000000       -1.2000000000000000     
 vg =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 theta =    276.85000000000002        276.91000000000003        277.68000000000001        279.82999999999998        280.81000000000000        281.39999999999998        281.68000000000001        281.97000000000003        281.97000000000003        281.97000000000003        281.97000000000003        281.97333333333336        281.98000000000002        282.29000000000002        282.62000000000000        282.83999999999997        283.06000000000000        283.19000000000000        283.62000000000000        284.72000000000003        285.42000000000002        285.92000000000002        287.17000000000002        288.33999999999997        288.88999999999999        289.56000000000000        290.56999999999999        290.94999999999999        291.01999999999998        291.08999999999997        291.16000000000003        291.23000000000002     
 rt =    4.1999999999999997E-003   3.7000000000000002E-003   3.5000000000000001E-003   3.8000000000000000E-003   3.8000000000000000E-003   3.8000000000000000E-003   3.7000000000000002E-003   3.5999999999999999E-003   3.5000000000000001E-003   3.3000000000000000E-003   3.2000000000000002E-003   3.0999999999999999E-003   2.8999999999999998E-003   2.7000000000000001E-003   2.5000000000000001E-003   2.3000000000000000E-003   2.2000000000000001E-003   2.0999999999999999E-003   2.0000000000000000E-003   1.8000000000000000E-003   1.5000000000000000E-003   1.1999999999999999E-003   8.0000000000000004E-004   1.0000000000000000E-003   8.0000000000000004E-004   6.9999999999999999E-004   6.9999999999999999E-004   6.9999999999999999E-004   5.9999999999999995E-004   5.0000000000000001E-004   5.0000000000000001E-004   4.0000000000000002E-004
 p_in_Pa =   -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998       -999.89999999999998     
 subs =    0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000        0.0000000000000000     
 When the l_diag_Lscale_from_tau flag is enabled, C2rt must have a value of 1.
 C2rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2thl must have a value of 1.
 C2thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2rtthl must have a value of 1.
 C2rtthl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rt must have a value of 1.
 C6rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rtb must have a value of 1.
 C6rtb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thl must have a value of 1.
 C6thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thlb must have a value of 1.
 C6thlb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2rt must have a value of 1.
 C2rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2thl must have a value of 1.
 C2thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C2rtthl must have a value of 1.
 C2rtthl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rt must have a value of 1.
 C6rt =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6rtb must have a value of 1.
 C6rtb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thl must have a value of 1.
 C6thl =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
 When the l_diag_Lscale_from_tau flag is enabled, C6thlb must have a value of 1.
 C6thlb =    2.0000000000000000        2.0000000000000000        2.0000000000000000        2.0000000000000000     
 Warning in check_clubb_settings_api
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Writing timing results to: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout300_window90000_104400/wangara.timing
 Program exited normally
--------------------------------------------------
run_scm.py total runtime: 2.83 s
--------------------------------------------------
[PASS] bs4_tout300_window90000_104400: stats file: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/stats_output_consistency/wangara/bs4_tout300_window90000_104400/wangara_stats.nc

======================== Batch-Size Checks ========================
[PASS] bs2_tout60_vs_bs4_tout60: checked 800 variables exactly
[PASS] bs1_tout60_vs_bs4_tout60: checked 800 variables exactly

======================== Tout Averaging Checks ========================
[PASS] bs4_tout300_manual_average_vs_bs4_tout60: checked 791 time-dependent variables, max_abs=1.490116e-08, max_rel=1.000000e+00
[PASS] bs4_tout600_manual_average_vs_bs4_tout60: checked 791 time-dependent variables, max_abs=2.980232e-08, max_rel=1.000000e+00

======================== Windowing Checks ========================
[PASS] bs4_tout60_window90000_104400_selected_window_vs_bs4_tout60: checked 800 variables against window (90000, 104400)
[PASS] bs4_tout300_window90000_104400_manual_average_vs_bs4_tout60: checked 791 time-dependent variables, max_abs=1.490116e-08, max_rel=5.015443e-09

======================== Summary ========================
All stats consistency checks passed.
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Run loss output consistency tests)
[Pipeline] sh
+ python tests/run_loss_output_consistency.py bomex
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/utilities/create_multi_col_params.py -param_file /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in -out_file /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/bomex_shared_multicol_params.in -hr C8/0.2:0.8/4 -batch_size 4
Creating a custom hypergrid of parameters
 - Initial values file: '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in'
 - Spec: C8/0.2:0.8/4
Writing to '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/bomex_shared_multicol_params.in':
 - ngrdcol = 4
 - batch_size = 4

======================== Test Setup ========================
Case: bomex
Fields: cloud_frac
Loss window: [10800.0, 21600.0]
Shared params: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/bomex_shared_multicol_params.in
Output root: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex

======================== Run Phase ========================
Running normal CLUBB
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm.py -params /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/bomex_shared_multicol_params.in -stats /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/stats/all_tuning_stats.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/normal -tout 10800 -stats_tstart 10800.0 -stats_tend 21600.0 -override stats_tsamp=60.0,time_final=21600.0,debug_level=-1 bomex
/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/normal/bomex.in
 - using install dir (latest): /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/install/gcc_DEBUG_PRECdouble
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone
=================== Running bomex ===================
 Program exited normally
--------------------------------------------------
run_scm.py total runtime: 1.73 s
--------------------------------------------------
[PASS] normal_run: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/normal/bomex_stats.nc

Running loss driver
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm_loss.py -params /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/bomex_shared_multicol_params.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/loss -fields cloud_frac bomex
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone_loss
 - normalized benchmark: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/loss/bomex_normalized_benchmark.nc
 - loss timing: absolute_window=[10800, 21600] s, model_time_initial=0 s, model_time_final=21600 s, stats_tstart=10800 s, stats_tend=21600 s, stats_tsamp=60 s, stats_tout=10800 s, num_time_windows=1
=================== Running bomex loss ===================
 benchmark timing:window           1 records         181         360 absolute_window       10800       21600 benchmark_window   10800.000000000000        21600.000000000000      matched_window   10860.000000000000        21600.000000000000     
 closing       131072
variable scaled_rmse_col1 scaled_rmse_col2 scaled_rmse_col3 scaled_rmse_col4 corr_col1 corr_col2 corr_col3 corr_col4 std_ratio_col1 std_ratio_col2 std_ratio_col3 std_ratio_col4 crmse_norm_col1 crmse_norm_col2 crmse_norm_col3 crmse_norm_col4 bias_norm_col1 bias_norm_col2 bias_norm_col3 bias_norm_col4 best_col
cloud_frac   2.49055369E+00   2.08000959E+00   1.57965946E+00   1.06938087E+00   9.23274637E-01   9.37761424E-01   9.41572742E-01   9.29902062E-01   4.36703716E-01   4.96866653E-01   5.87526982E-01   7.28899724E-01   6.19931613E-01   5.61241223E-01   4.88660589E-01   4.19146866E-01  -4.58085654E-01  -4.25704964E-01  -3.71566256E-01  -2.81837200E-01 col4
[PASS] loss_run: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/bomex/loss/bomex_stats.nc


======================== Comparison ========================
[PASS] loss_vs_equivalent_normal: cloud_frac(max_abs=0.000000e+00, max_rel=0.000000e+00)

[PASS] reported_loss_metrics_vs_netcdf: cloud_frac(scaled_rmse(max_abs=4.045551e-09, max_rel=1.944967e-09); corr(max_abs=4.295486e-10, max_rel=4.652447e-10); std_ratio(max_abs=4.652371e-10, max_rel=1.065338e-09); crmse_norm(max_abs=4.074638e-10, max_rel=9.721265e-10); bias_norm(max_abs=2.853958e-10, max_rel=6.704075e-10))


======================== Summary ========================
Loss-driver stats output and reported metrics are internally consistent.
[Pipeline] sh
+ python tests/run_loss_output_consistency.py atex
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/utilities/create_multi_col_params.py -param_file /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in -out_file /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/atex_shared_multicol_params.in -hr C8/0.2:0.8/4 -batch_size 4
Creating a custom hypergrid of parameters
 - Initial values file: '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in'
 - Spec: C8/0.2:0.8/4
Writing to '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/atex_shared_multicol_params.in':
 - ngrdcol = 4
 - batch_size = 4

======================== Test Setup ========================
Case: atex
Fields: cloud_frac
Loss window: [21600.0, 28800.0]
Shared params: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/atex_shared_multicol_params.in
Output root: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex

======================== Run Phase ========================
Running normal CLUBB
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm.py -params /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/atex_shared_multicol_params.in -stats /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/stats/all_tuning_stats.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/normal -tout 7200 -stats_tstart 21600.0 -stats_tend 28800.0 -override stats_tsamp=60.0,time_final=28800.0,debug_level=-1 atex
/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/normal/atex.in
 - using install dir (latest): /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/install/gcc_DEBUG_PRECdouble
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone
=================== Running atex ===================
 Program exited normally
--------------------------------------------------
run_scm.py total runtime: 4.24 s
--------------------------------------------------
[PASS] normal_run: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/normal/atex_stats.nc

Running loss driver
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm_loss.py -params /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/atex_shared_multicol_params.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/loss -fields cloud_frac atex
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone_loss
 - normalized benchmark: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/loss/atex_normalized_benchmark.nc
 - loss timing: absolute_window=[21600, 28800] s, model_time_initial=0 s, model_time_final=28800 s, stats_tstart=21600 s, stats_tend=28800 s, stats_tsamp=60 s, stats_tout=7200 s, num_time_windows=1
=================== Running atex loss ===================
 benchmark timing:window           1 records         361         480 absolute_window       21600       28800 benchmark_window   21600.000000000000        28800.000000000000      matched_window   21660.000000000000        28800.000000000000     
 closing       131072
variable scaled_rmse_col1 scaled_rmse_col2 scaled_rmse_col3 scaled_rmse_col4 corr_col1 corr_col2 corr_col3 corr_col4 std_ratio_col1 std_ratio_col2 std_ratio_col3 std_ratio_col4 crmse_norm_col1 crmse_norm_col2 crmse_norm_col3 crmse_norm_col4 bias_norm_col1 bias_norm_col2 bias_norm_col3 bias_norm_col4 best_col
cloud_frac   1.13312929E+01   4.54342357E+00   6.12240940E+00   6.15015306E+00   7.85016335E-01   9.63582268E-01   9.67602377E-01   9.44037369E-01   1.99138367E+00   1.76779679E+00   1.95542534E+00   1.91374511E+00   1.35612370E+00   8.47508236E-01   1.01957827E+00   1.02426878E+00   4.48215643E-01   3.15722617E-01   2.50350558E-01   2.41004973E-01 col2
[PASS] loss_run: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/atex/loss/atex_stats.nc


======================== Comparison ========================
[PASS] loss_vs_equivalent_normal: cloud_frac(max_abs=0.000000e+00, max_rel=0.000000e+00)

[PASS] reported_loss_metrics_vs_netcdf: cloud_frac(scaled_rmse(max_abs=4.475612e-09, max_rel=9.066588e-10); corr(max_abs=4.119810e-10, max_rel=4.275515e-10); std_ratio(max_abs=4.532003e-09, max_rel=2.317656e-09); crmse_norm(max_abs=4.627862e-09, max_rel=4.518211e-09); bias_norm(max_abs=4.064959e-10, max_rel=1.514367e-09))


======================== Summary ========================
Loss-driver stats output and reported metrics are internally consistent.
[Pipeline] sh
+ python tests/run_loss_output_consistency.py wangara
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/utilities/create_multi_col_params.py -param_file /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in -out_file /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/wangara_shared_multicol_params.in -hr C8/0.2:0.8/4 -batch_size 4
Creating a custom hypergrid of parameters
 - Initial values file: '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/parameter_and_flag_configs/default/tunable_parameters.in'
 - Spec: C8/0.2:0.8/4
Writing to '/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/wangara_shared_multicol_params.in':
 - ngrdcol = 4
 - batch_size = 4

======================== Test Setup ========================
Case: wangara
Fields: cloud_frac
Loss window: [86400.0, 88620.0]
Shared params: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/wangara_shared_multicol_params.in
Output root: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara

======================== Run Phase ========================
Running normal CLUBB
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm.py -params /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/wangara_shared_multicol_params.in -stats /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/input/stats/all_tuning_stats.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/normal -tout 2220 -stats_tstart 86400.0 -stats_tend 88620.0 -override stats_tsamp=60.0,time_final=88620.0,debug_level=-1 wangara
/home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/normal/wangara.in
 - using install dir (latest): /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/install/gcc_DEBUG_PRECdouble
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone
=================== Running wangara ===================
 Program exited normally
--------------------------------------------------
run_scm.py total runtime: 0.38 s
--------------------------------------------------
[PASS] normal_run: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/normal/wangara_stats.nc

Running loss driver
+ /usr/bin/python /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/run_scm_loss.py -params /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/wangara_shared_multicol_params.in -out_dir /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/loss -fields cloud_frac wangara
 - using executable: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/run_scripts/../install/latest/clubb_standalone_loss
 - normalized benchmark: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/loss/wangara_normalized_benchmark.nc
 - loss timing: absolute_window=[86400, 88620] s, model_time_initial=82800 s, model_time_final=88620 s, stats_tstart=86400 s, stats_tend=88620 s, stats_tsamp=60 s, stats_tout=2220 s, num_time_windows=1
=================== Running wangara loss ===================
 benchmark timing:window           1 records          14          20 absolute_window       86400       88620 benchmark_window   86400.000000000000        88620.000000000000      matched_window   86700.000000000000        88500.000000000000     
 closing       131072
variable scaled_rmse_col1 scaled_rmse_col2 scaled_rmse_col3 scaled_rmse_col4 corr_col1 corr_col2 corr_col3 corr_col4 std_ratio_col1 std_ratio_col2 std_ratio_col3 std_ratio_col4 crmse_norm_col1 crmse_norm_col2 crmse_norm_col3 crmse_norm_col4 bias_norm_col1 bias_norm_col2 bias_norm_col3 bias_norm_col4 best_col
cloud_frac   1.66750133E-11   1.82018260E-14   2.62406835E-20   0.00000000E+00   1.00000000E+00   1.00000000E+00   1.00000000E+00   1.00000000E+00   1.00000000E+00   1.00000000E+00   1.00000000E+00   1.00000000E+00   5.60358588E-07   1.86345806E-08   2.29040409E-11   0.00000000E+00   1.62187075E-07   4.92120334E-09   3.30591354E-12   0.00000000E+00 col4
[PASS] loss_run: /home/jenkins/workspace/clubb_stats_output_consistency_gfortran_test/output/loss_output_consistency/wangara/loss/wangara_stats.nc


======================== Comparison ========================
[PASS] loss_vs_equivalent_normal: cloud_frac(max_abs=0.000000e+00, max_rel=0.000000e+00)

[PASS] reported_loss_metrics_vs_netcdf: cloud_frac(scaled_rmse(max_abs=8.713385e-21, max_rel=1.006496e-09); corr(max_abs=0.000000e+00, max_rel=0.000000e+00); std_ratio(max_abs=0.000000e+00, max_rel=0.000000e+00); crmse_norm(max_abs=2.700826e-16, max_rel=1.093311e-09); bias_norm(max_abs=2.600326e-16, max_rel=1.603288e-09))


======================== Summary ========================
Loss-driver stats output and reported metrics are internally consistent.
[Pipeline] }
[Pipeline] // stage
[Pipeline] }
[Pipeline] // withEnv
[Pipeline] }
[Pipeline] // node
[Pipeline] End of Pipeline
Finished: SUCCESS