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2111 thlm_ta K s^{-1} 73 A thlm_ta, thlm budget: thlm turbulent advection
2112 thlm_mfl K s^{-1} 73 A thlm_mfl, thlm budget: thlm correction due to monotonic flux limiter
2113 thlm_tacl K s^{-1} 73 A thlm_tacl, thlm budget: thlm correction due to ta term (wpthlp) clipping
2114 thlm_cl K s^{-1} 73 A thlm_cl, thlm budget: thlm_cl
2115 thlm_forcing K s^{-1} 73 A thlm_forcing, thlm budget: thetal forcing (includes thlm_mc and radht)
2116 thlm_sdmp K s^{-1} 73 A thlm_sdmp, thlm budget: thlm correction due to sponge damping
2117 thlm_mc K s^{-1} 73 A thlm_mc, Change in thlm due to microphysics (not in budget)
2118 thlm_old K 73 A thlm_old, Thlm at previous timestep
2119 thlm_without_ta K 73 A thlm_without_ta, Thlm without turbulent advection contribution
2120 thlm_mfl_min K 73 A thlm_mfl_min, Minimum allowable thlm
2121 thlm_mfl_max K 73 A thlm_mfl_max, Maximum allowable thlm
2122 thlm_enter_mfl K 73 A thlm_enter_mfl, Thlm before flux-limiter
2123 thlm_exit_mfl K 73 A thlm_exit_mfl, Thlm exiting flux-limiter
2124 rtm_old kg/kg 73 A rtm_old, Rtm at previous timestep
2125 rtm_without_ta kg/kg 73 A rtm_without_ta, Rtm without turbulent advection contribution
2126 rtm_mfl_min kg/kg 73 A rtm_mfl_min, Minimum allowable rtm
2127 rtm_mfl_max kg/kg 73 A rtm_mfl_max, Maximum allowable rtm
2128 rtm_enter_mfl kg/kg 73 A rtm_enter_mfl, Rtm before flux-limiter
2129 rtm_exit_mfl kg/kg 73 A rtm_exit_mfl, Rtm exiting flux-limiter
2130 um_bt m s^{-2} 73 A um_bt, um budget: um time tendency
2131 um_ma m s^{-2} 73 A um_ma, um budget: um vertical mean advection
2132 um_gf m s^{-2} 73 A um_gf, um budget: um geostrophic forcing
2133 um_cf m s^{-2} 73 A um_cf, um budget: um coriolis forcing
2134 um_ta m s^{-2} 73 A um_ta, um budget: um turbulent advection
2135 um_f m s^{-2} 73 A um_f, um budget: um forcing
2136 um_sdmp m s^{-2} 73 A um_sdmp, um budget: um sponge damping
2137 um_ndg m s^{-2} 73 A um_ndg, um budget: um nudging
2138 vm_bt m s^{-2} 73 A vm_bt, vm budget: vm time tendency
2139 vm_ma m s^{-2} 73 A vm_ma, vm budget: vm vertical mean advection
2140 vm_gf m s^{-2} 73 A vm_gf, vm budget: vm geostrophic forcing
2141 vm_cf m s^{-2} 73 A vm_cf, vm budget: vm coriolis forcing
2142 vm_ta m s^{-2} 73 A vm_ta, vm budget: vm turbulent transport
2143 vm_f m s^{-2} 73 A vm_f, vm budget: vm forcing
2144 vm_sdmp m s^{-2} 73 A vm_sdmp, vm budget: vm sponge damping
2145 vm_ndg m s^{-2} 73 A vm_ndg, vm budget: vm nudging
2146 wp3_bt m^{3} s^{-4} 73 A wp3_bt, wp3 budget: wp3 time tendency
2147 wp3_ma m^{3} s^{-4} 73 A wp3_ma, wp3 budget: wp3 vertical mean advection
2148 wp3_ta m^{3} s^{-4} 73 A wp3_ta, wp3 budget: wp3 turbulent advection
2149 wp3_tp m^{3} s^{-4} 73 A wp3_tp, wp3 budget: wp3 turbulent transport
2150 wp3_ac m^{3} s^{-4} 73 A wp3_ac, wp3 budget: wp3 accumulation term
2151 wp3_bp1 m^{3} s^{-4} 73 A wp3_bp1, wp3 budget: wp3 buoyancy production
2152 wp3_pr_turb m^{3} s^{-4} 73 A wp3_pr_turb, wp3 budget: wp3 pressure-turbulence correlation term
2153 wp3_pr_dfsn m^{3} s^{-4} 73 A wp3_pr_dfsn, wp3 budget: wp3 pressure diffusion term
2154 wp3_pr1 m^{3} s^{-4} 73 A wp3_pr1, wp3 budget: wp3 pressure term 1
2155 wp3_pr2 m^{3} s^{-4} 73 A wp3_pr2, wp3 budget: wp3 pressure term 2
2156 wp3_dp1 m^{3} s^{-4} 73 A wp3_dp1, wp3 budget: wp3 dissipation term 1
2157 wp3_cl m^{3} s^{-4} 73 A wp3_cl, wp3 budget: wp3 clipping term
2158 mixt_frac count 73 A mixt_frac, pdf parameter: mixture fraction
2159 w_1 m/s 73 A w_1, pdf parameter: mean w of component 1
2160 w_2 m/s 73 A w_2, pdf paramete: mean w of component 2
2161 varnce_w_1 m^2/s^2 73 A varnce_w_1, pdf parameter: w variance of component 1
2162 varnce_w_2 m^2/s^2 73 A varnce_w_2, pdf parameter: w variance of component 2
2163 thl_1 K 73 A thl_1, pdf parameter: mean thl of component 1
2164 thl_2 K 73 A thl_2, pdf parameter: mean thl of component 2
2165 varnce_thl_1 K^2 73 A varnce_thl_1, pdf parameter: thl variance of component 1
2166 varnce_thl_2 K^2 73 A varnce_thl_2, pdf parameter: thl variance of component 2
2167 rt_1 kg/kg 73 A rt_1, pdf parameter: mean rt of component 1
2168 rt_2 kg/kg 73 A rt_2, pdf parameter: mean rt of component 2
2169 varnce_rt_1 (kg^2)/(kg^2) 73 A varnce_rt_1, pdf parameter: rt variance of component 1
2170 varnce_rt_2 (kg^2)/(kg^2) 73 A varnce_rt_2, pdf parameter: rt variance of component 2
2171 rc_1 kg/kg 73 A rc_1, pdf parameter: mean rc of component 1
2172 rc_2 kg/kg 73 A rc_2, pdf parameter: mean rc of component 2
2173 rsatl_1 kg/kg 73 A rsatl_1, pdf parameter: sat mix rat based on tl1
2174 rsatl_2 kg/kg 73 A rsatl_2, pdf parameter: sat mix rat based on tl2
2175 cloud_frac_1 - 73 A cloud_frac_1, pdf parameter cloud_frac_1
2176 cloud_frac_2 - 73 A cloud_frac_2, pdf parameter cloud_frac_2
2177 a3_coef_zt count 73 A a3_coef_zt, The a3 coefficient interpolated the the zt grid
2178 wp3_on_wp2_zt m/s 73 A wp3_on_wp2_zt, Smoothed version of wp3 / wp2
2179 chi_1 kg/kg 73 A chi_1, pdf parameter: Mellor's s (extended liq) for component 1
2180 chi_2 kg/kg 73 A chi_2, pdf parameter: Mellor's s (extended liq) for component 2
2181 stdev_chi_1 kg/kg 73 A stdev_chi_1, pdf parameter: Std dev of chi_1
2182 stdev_chi_2 kg/kg 73 A stdev_chi_2, pdf parameter: Std dev of chi_2
2183 stdev_eta_1 kg/kg 73 A stdev_eta_1, Standard dev. of eta(t) (1st PDF component)
2184 stdev_eta_2 kg/kg 73 A stdev_eta_2, Standard dev. of eta(t) (2nd PDF component)
2185 covar_chi_eta_1 kg^2/kg^2 73 A covar_chi_eta_1, Covariance of chi(s) and eta(t) (1st PDF component)
2186 covar_chi_eta_2 kg^2/kg^2 73 A covar_chi_eta_2, Covariance of chi(s) and eta(t) (2nd PDF component)
2187 corr_chi_eta_1 - 73 A corr_chi_eta_1, Correlation of chi (s) and eta (t) (1st PDF component)
2188 corr_chi_eta_2 - 73 A corr_chi_eta_2, Correlation of chi (s) and eta (t) (2nd PDF component)
2189 corr_rt_thl_1 - 73 A corr_rt_thl_1, Correlation of rt and thl (1st PDF component)
2190 crt_1 - 73 A crt_1, Coefficient on rt in chi/eta equations (1st PDF comp.)
2191 crt_2 - 73 A crt_2, Coefficient on rt in chi/eta equations (2nd PDF comp.)
2192 cthl_1 kg/kg/K 73 A cthl_1, Coefficient on theta-l in chi/eta equations (1st PDF comp.)
2193 cthl_2 kg/kg/K 73 A cthl_2, Coefficient on theta-l in chi/eta equations (2nd PDF comp.)
2194 precip_frac - 73 A precip_frac, Precipitation Fraction
2195 precip_frac_1 - 73 A precip_frac_1, Precipitation Fraction (1st PDF component)
2196 precip_frac_2 - 73 A precip_frac_2, Precipitation Fraction (2nd PDF component)
2197 Ncnm num/kg 73 A Ncnm, Cloud nuclei concentration (PDF)
2198 wp2_zt m^2/s^2 73 A wp2_zt, w'^2 interpolated to thermodyamic levels
2199 thlp2_zt K^2 73 A thlp2_zt, thl'^2 interpolated to thermodynamic levels
2200 wpthlp_zt (m K)/s 73 A wpthlp_zt, w'thl' interpolated to thermodynamic levels
2201 wprtp_zt (m kg)/(s kg) 73 A wprtp_zt, w'rt' interpolated to thermodynamic levels
2202 rtp2_zt (kg/kg)^2 73 A rtp2_zt, rt'^2 interpolated to thermodynamic levels
2203 rtpthlp_zt (kg K)/kg 73 A rtpthlp_zt, rt'thl' interpolated to thermodynamic levels
2204 up2_zt m^2/s^2 73 A up2_zt, u'^2 interpolated to thermodynamic levels
2205 vp2_zt m^2/s^2 73 A vp2_zt, v'^2 interpolated to thermodynamic levels
2206 upwp_zt m^2/s^2 73 A upwp_zt, u'w' interpolated to thermodynamic levels
2207 vpwp_zt m^2/s^2 73 A vpwp_zt, v'w' interpolated to thermodynamic levels
2208 C11_Skw_fnc count 73 A C11_Skw_fnc, C_11 parameter with Sk_w applied
2209 wp2 m^2/s^2 73 A w'^2, Variance of vertical air velocity
2210 rtp2 (kg/kg)^2 73 A rt'^2, Variance of total water, rt
2211 thlp2 K^2 73 A thl'^2, Variance of theta_l
2212 rtpthlp (kg K)/kg 73 A rt'thl', Covariance of rt and theta_l
2213 wprtp (m kg)/(s kg) 73 A w'rt', Vertical turbulent flux of total water, rt
2214 wpthlp (m K)/s 73 A w'thl', Vertical turbulent flux of theta_l
2215 wp4 (m^4)/(s^4) 73 A w'^4, Fourth-order moment of vertical air velocity
2216 up2 m^2/s^2 73 A u'^2, Variance of eastward (u) wind
2217 vp2 m^2/s^2 73 A v'^2, Variance of northward (v) wind
2218 wpthvp K m/s 73 A w'thv', Buoyancy flux
2219 rtpthvp (kg/kg) K 73 A rt'thv', Covariance of rt and theta_v
2220 thlpthvp K^2 73 A thl'thv', Covariance of theta_l and theta_v
2221 tau_zm s 73 A tau_zm, Time-scale tau on momentum levels
2222 Kh_zm m^2/s 73 A Kh_zm, Eddy diffusivity on momentum levels
2223 wprcp (m/s) (kg/kg) 73 A w'rc'
2224 wm_zm m/s 73 A wm_zm, Vertical (w) wind
2225 thlprcp K (kg/kg) 73 A thl'rc'
2226 rtprcp (kg^2)/(kg^2) 73 A rt'rc'
2227 rcp2 (kg^2)/(kg^2) 73 A rc'^2, Variance of cloud water mixing ratio
2228 upwp m^2/s^2 73 A u'w', Vertical turbulent flux of eastward (u) wind
2229 vpwp m^2/s^2 73 A v'w', Vertical turbulent flux of northward (v) wind
2230 rho_zm kg m^{-3} 73 A rho_zm, Density on momentum levels
2231 sigma_sqd_w - 73 A sigma_sqd_w, Nondim w variance of Gaussian component
2232 Skw_velocity m/s 73 A Skw_velocity, Skewness velocity
2233 gamma_Skw_fnc - 73 A gamma_Skw_fnc, Gamma as a function of skewness
2234 C6rt_Skw_fnc - 73 A C6rt_Skw_fnc, C_6rt parameter with Sk_w applied
2235 C6thl_Skw_fnc - 73 A C6thl_Skw_fnc, C_6thl parameter with Sk_w applied
2236 C7_Skw_fnc - 73 A C7_Skw_fnc, C_7 parameter with Sk_w applied
2237 C1_Skw_fnc - 73 A C1_Skw_fnc, C_1 parameter with Sk_w applied
2238 a3_coef count 73 A a3_coef, Quantity in formula 25 from Equations for CLUBB
2239 wp3_on_wp2 m/s 73 A w'^3_on_w'^2, Smoothed version of wp3 / wp2
2240 rcm_zm kg/kg 73 A rcm_zm, Total water mixing ratio
2241 rtm_zm kg/kg 73 A rtm_zm, Total water mixing ratio
2242 thlm_zm K 73 A thlm_zm, Liquid potential temperature
2243 cloud_frac_zm - 73 A cloud_frac_zm, Cloud fraction
2244 rho_ds_zm kg m^{-3} 73 A rho_ds_zm, Dry static, base-state density
2245 thv_ds_zm K 73 A thv_ds_zm, Dry, base-state theta_v
2246 em m^2/s^2 73 A em, Turbulent kinetic energy, usu. 0.5*(u'^2+v'^2+w'^2)
2247 mean_w_up m/s 73 A mean_w_up, Mean w >= w_ref
2248 mean_w_down m/s 73 A mean_w_down, Mean w <= w_ref
2249 shear m^2/s^3 73 A shear, Wind shear production term
2250 wp3_zm (m^3)/(s^3) 73 A w'^3_zm, w'^3 interpolated to moment. levels
2251 Frad W/m^2 73 A Frad, Total (sw+lw) net (up+down) radiative flux
2252 Frad_LW W/m^2 73 A Frad_LW, Net long-wave radiative flux
2253 Frad_SW W/m^2 73 A Frad_SW, Net short-wave radiative flux
2254 Frad_LW_up W/m^2 73 A Frad_LW_up, Long-wave upwelling radiative flux
2255 Frad_SW_up W/m^2 73 A Frad_SW_up, Short-wave upwelling radiative flux
2256 Frad_LW_down W/m^2 73 A Frad_LW_down, Long-wave downwelling radiative flux
2257 Frad_SW_down W/m^2 73 A Frad_SW_down, Short-wave downwelling radiative flux
2258 Fprec W/m^2 73 A Fprec, Rain flux
2259 Fcsed kg/(s*m^2) 73 A Fcsed, cloud water sedimentation flux
2260 wp2_bt m^2/s^3 73 A w'^2_bt, wp2 budget: wp2 time tendency
2261 wp2_ma m^2/s^3 73 A w'^2_ma, wp2 budget: wp2 vertical mean advection
2262 wp2_ta m^2/s^3 73 A w'^2_ta, wp2 budget: wp2 turbulent advection
2263 wp2_ac m^2/s^3 73 A w'^2_ac, wp2 budget: wp2 accumulation term
2264 wp2_bp m^2/s^3 73 A w'^2_bp, wp2 budget: wp2 buoyancy production
2265 wp2_pr1 m^2/s^3 73 A w'^2_pr1, wp2 budget: wp2 pressure term 1
2266 wp2_pr2 m^2/s^3 73 A w'^2_pr2, wp2 budget: wp2 pressure term 2
2267 wp2_pr3 m^2/s^3 73 A w'^2_pr3, wp2 budget: wp2 pressure term 3
2268 wp2_dp1 m^2/s^3 73 A w'^2_dp1, wp2 budget: wp2 dissipation term 1
2269 wp2_dp2 m^2/s^3 73 A w'^2_d'^2, wp2 budget: wp2 dissipation term 2
2270 wp2_cl m^2/s^3 73 A w'^2_cl, wp2 budget: wp2 clipping term
2271 wp2_pd m2/s3 73 A w'^2_pd, wp2 budget: wp2 positive definite adjustment
2272 wp2_sf m2/s3 73 A w'^2_sf, wp2 budget: wp2 surface variance
2273 vp2_bt m^2/s^3 73 A v'2_bt, vp2 budget: vp2 time tendency
2274 vp2_ma m^2/s^3 73 A v'^2_ma, vp2 budget: vp2 mean advection
2275 vp2_ta m^2/s^3 73 A v'^2_ta, vp2 budget: vp2 turbulent advection
2276 vp2_tp m^2/s^3 73 A v'^2_tp, vp2 budget: vp2 turbulent production
2277 vp2_dp1 m^2/s^3 73 A v'^2_dp1, vp2 budget: vp2 dissipation term 1
2278 vp2_dp2 m^2/s^3 73 A v'^2_dp2, vp2 budget: vp2 dissipation term 2
2279 vp2_pr1 m^2/s^3 73 A v'^2_pr1, vp2 budget: vp2 pressure term 1
2280 vp2_pr2 m^2/s^3 73 A v'^2_pr2, vp2 budget: vp2 pressure term 2
2281 vp2_cl m^2/s^3 73 A v'^2_cl, vp2 budget: vp2 clipping
2282 vp2_pd m^2/s^3 73 A v'^2_pd, vp2 budget: vp2 positive definite adjustment
2283 vp2_sf m^2/s^3 73 A v'^2_sf, vp2 budget: vp2 surface variance
2284 up2_bt m^2/s^3 73 A u'^2_bt, up2 budget: up2 time tendency
2285 up2_ma m^2/s^3 73 A u'^2_ma, up2 budget: up2 mean advection
2286 up2_ta m^2/s^3 73 A u'^2_ta, up2 budget: up2 turbulent advection
2287 up2_tp m^2/s^3 73 A u'^2_tp, up2 budget: up2 turbulent production
2288 up2_dp1 m^2/s^3 73 A u'^2_dp1, up2 budget: up2 dissipation term 1
2289 up2_dp2 m^2/s^3 73 A u'^2_d'^2, up2 budget: up2 dissipation term 2
2290 up2_pr1 m^2/s^3 73 A u'^2_pr1, up2 budget: up2 pressure term 1
2291 up2_pr2 m^2/s^3 73 A u'^2_pr2, up2 budget: up2 pressure term 2
2292 up2_cl m^2/s^3 73 A u'^2_cl, up2 budget: up2 clipping
2293 up2_pd m^2/s^3 73 A u'^2_pd, up2 budget: up2 positive definite adjustment
2294 up2_sf m^2/s^3 73 A u'^2_sf, up2 budget: up2 surface variance
2295 wprtp_bt (m kg)/(s^2 kg) 73 A w'rt'_bt, wprtp budget: wprtp time tendency
2296 wprtp_ma (m kg)/(s^2 kg) 73 A w'rt'_ma, wprtp budget: wprtp mean advection
2297 wprtp_ta (m kg)/(s^2 kg) 73 A w'rt'_ta, wprtp budget: wprtp turbulent advection
2298 wprtp_tp (m kg)/(s^2 kg) 73 A w'rt'_t', wprtp budget: wprtp turbulent production
2299 wprtp_ac (m kg)/(s^2 kg) 73 A w'rt'_ac, wprtp budget: wprtp accumulation term
2300 wprtp_bp (m kg)/(s^2 kg) 73 A w'rt'_b', wprtp budget: wprtp buoyancy production
2301 wprtp_pr1 (m kg)/(s^2 kg) 73 A w'rt'_pr1, wprtp budget: wprtp pressure term 1
2302 wprtp_pr2 (m kg)/(s^2 kg) 73 A w'rt'_pr2, wprtp budget: wprtp pressure term 2
2303 wprtp_pr3 (m kg)/(s^2 kg) 73 A w'rt'_pr3, wprtp budget: wprtp pressure term 3
2304 wprtp_dp1 (m kg)/(s^2 kg) 73 A w'rt'_dp1, wprtp budget: wprtp dissipation term 1
2305 wprtp_mfl (m kg)/(s^2 kg) 73 A w'rt'_mfl, wprtp budget: wprtp monotonic flux limiter
2306 wprtp_cl (m kg)/(s^2 kg) 73 A w'rt'_cl, wprtp budget: wprtp clipping term
2307 wprtp_sicl (m kg)/(s^2 kg) 73 A w'rt'_sicl, wprtp budget: wprtp semi-implicit clipping term
2308 wprtp_pd (m kg)/(s^2 kg) 73 A w'rt'_pd, wprtp budget: wprtp flux corrected trans. term
2309 wprtp_forcing (m kg/kg)/s^2 73 A w'rt'_forcing, wprtp budget: wprtp forcing (includes microphysics tendency)
2310 wprtp_mc (m kg/kg)/s^2 73 A w'rt'_mc, Microphysics tendency for wprtp (not in budget)
2311 wpthlp_bt (m K)/s^2 73 A w'thl'_bt, wpthlp budget
2312 wpthlp_ma (m K)/s^2 73 A w'thl'_ma, wpthlp budget: wpthlp mean advection
2313 wpthlp_ta (m K)/s^2 73 A w'thl'_ta, wpthlp budget: wpthlp turbulent advection
2314 wpthlp_tp (m K)/s^2 73 A w'thl'_tp, wpthlp budget: wpthlp turbulent production
2315 wpthlp_ac (m K)/s^2 73 A w'thl'_ac, wpthlp budget: wpthlp accumulation term
2316 wpthlp_bp (m K)/s^2 73 A w'thl'_b', wpthlp budget: wpthlp buoyancy production
2317 wpthlp_pr1 (m K)/s^2 73 A w'thl'_pr1, wpthlp budget: wpthlp pressure term 1
2318 wpthlp_pr2 (m K)/s^2 73 A w'thl'_pr2, wpthlp budget: wpthlp pressure term 2
2319 wpthlp_pr3 (m K)/s^2 73 A w'thl'_pr3, wpthlp budget: wpthlp pressure term 3
2320 wpthlp_dp1 (m K)/s^2 73 A w'thl'_dp1, wpthlp budget: wpthlp dissipation term 1
2321 wpthlp_mfl (m K)/s^2 73 A w'thl'_mfl, wpthlp budget: wpthlp monotonic flux limiter
2322 wpthlp_cl (m K)/s^2 73 A w'thl'_cl, wpthlp budget: wpthlp clipping term
2323 wpthlp_sicl (m K)/s^2 73 A w'thl'_sicl, wpthlp budget: wpthlp semi-implicit clipping term
2324 wpthlp_forcing (m K)/s^2 73 A w'thl'_forcing, wpthlp budget: wpthlp forcing (includes microphysics tendency)
2325 wpthlp_mc (m K)/s^2 73 A w'thl'_mc, Microphysics tendency for wpthlp (not in budget)
2326 rtp2_bt (kg^2)/(kg^2 s) 73 A rt'^2_bt, rt'2 budget: rtp2 time tendency
2327 rtp2_ma (kg^2)/(kg^2 s) 73 A rt'^2_ma, rtp2 budget: rtp2 mean advection
2328 rtp2_ta (kg^2)/(kg^2 s) 73 A rt'^2_ta, rtp2 budget: rtp2 turbulent advection
2329 rtp2_tp (kg^2)/(kg^2 s) 73 A rt'^2_tp, rtp2 budget: rtp2 turbulent production
2330 rtp2_dp1 (kg^2)/(kg^2 s) 73 A rt'^2_dp1, rtp2 budget: rtp2 dissipation term 1
2331 rtp2_dp2 (kg^2)/(kg^2 s) 73 A rt'^2_dp2, rtp2 budget: rtp2 dissipation term 2
2332 rtp2_cl (kg^2)/(kg^2 s) 73 A rt'^2_cl, rtp2 budget: rtp2 clipping term
2333 rtp2_pd (kg^2)/(kg^2 s) 73 A rt'^2_pd, rtp2 budget: rtp2 positive definite adjustment
2334 rtp2_sf (kg^2)/(kg^2 s) 73 A rt'^2_sf, rtp2 budget: rtp2 surface variance
2335 rtp2_forcing (kg/kg)^2/s 73 A rt'^2_forcing, rtp2 budget: rtp2 forcing (includes microphysics tendency)
2336 rtp2_mc (kg/kg)^2/s 73 A rt'^2_mc, Microphysics tendency for rtp2 (not in budget)
2337 thlp2_bt (K^2)/s 73 A thl'^2_bt, thlp2 budget: thlp2 time tendency
2338 thlp2_ma (K^2)/s 73 A thl'^2_ma, thlp2 budget: thlp2 mean advection
2339 thlp2_ta (K^2)/s 73 A thl'^2_ta, thlp2 budget: thlp2 turbulent advection
2340 thlp2_tp (K^2)/s 73 A thl'^2_t', thlp2 budget: thlp2 turbulent production
2341 thlp2_dp1 (K^2)/s 73 A thl'^2_dp1, thlp2 budget: thlp2 dissipation term 1
2342 thlp2_dp2 (K^2)/s 73 A thl'^2_dp2, thlp2 budget: thlp2 dissipation term 2
2343 thlp2_cl (K^2)/s 73 A thl'^2_cl, thlp2 budget: thlp2 clipping term
2344 thlp2_pd K^2/s 73 A thl'^2_pd, thlp2 budget: thlp2 positive definite adjustment
2345 thlp2_sf K^2/s 73 A thl'^2_sf, thl'^2 budget: thlp2 surface variance
2346 thlp2_forcing K^2/s 73 A thlp2 budget: thlp2 forcing (includes microphysics tendency) [K^2/s]
2347 thlp2_mc K^2/s 73 A thl'^2_mc, Microphysics tendency for thlp2 (not in budget)
2348 rtpthlp_bt (kg K)/(kg s) 73 A rt'thl'_bt, rtpthlp budget: rtpthlp time tendency
2349 rtpthlp_ma (kg K)/(kg s) 73 A rt'thl'_ma, rtpthlp budget: rtpthlp mean advection
2350 rtpthlp_ta (kg K)/(kg s) 73 A rt'thl'_ta, rtpthlp budget: rtpthlp turbulent advection
2351 rtpthlp_tp1 (kg K)/(kg s) 73 A rt'thl'_tp1, rtpthlp budget: rtpthlp turbulent production 1
2352 rtpthlp_tp2 (kg K)/(kg s) 73 A rt'thl'_t'^2, rtpthlp budget: rtpthlp turbulent production 2
2353 rtpthlp_dp1 (kg K)/(kg s) 73 A rt'thl'_d'1, rtpthlp budget: rtpthlp dissipation term 1
2354 rtpthlp_dp2 (kg K)/(kg s) 73 A rt'thl'_dp2, rtpthlp budget: rtpthlp dissipation term 2
2355 rtpthlp_cl (kg K)/(kg s) 73 A rt'thl'_cl, rtpthlp budget: rtpthlp clipping term
2356 rtpthlp_sf (kg K)/(kg s) 73 A rt'thl'_sf, rtpthlp budget: rtpthlp surface variance
2357 rtpthlp_forcing (K kg/kg)/s 73 A rt'thl'_forcing, rtpthlp budget: rtpthlp forcing (includes microphysics tendency)
2358 rtpthlp_mc (K kg/kg)/s 73 A rt'thl'_mc, Microphysics tendency for rtpthlp (not in budget)
2359 wpthlp_entermfl (m K)/s 73 A w'thl'_entermfl, Wpthlp entering flux limiter
2360 wpthlp_exit_mfl (m K)/s 73 A w'thl'_exit_mfl, Wpthlp exiting flux limiter
2361 wprtp_enter_mfl (m kg)/(s kg) 73 A w'rt'_enter_mfl, Wprtp entering flux limiter
2362 wprtp_exit_mfl (m kg)/(s kg) 73 A w'rt'_exit_mfl, Wprtp exiting flux limiter
2363 wpthlp_mfl_min (m K)/s 73 A w'thl'_mfl_min, Minimum allowable wpthlp
2364 wpthlp_mfl_max (m K)/s 73 A w'thl'_mfl_max, Maximum allowable wpthlp
2365 wprtp_mfl_min (m kg)/(s kg) 73 A w'rt'_mfl_min, Minimum allowable wprtp
2366 wprtp_mfl_max (m kg)/(s kg) 73 A w'rt'_mfl_max, Maximum allowable wprtp
2367 Richardson_num - 73 A Richardson_num, Richardson number
2368 shear_sqd - 73 A shear_sqd, shear_sqd
2369 TROP_P Pa 1 A Tropopause Pressure
2370 TROP_T K 1 A Tropopause Temperature
2371 TROP_Z m 1 A Tropopause Height
2372 TROP_DZ m 72 A Relative Tropopause Height
2373 TROP_PD probability 72 A Tropopause Probabilty
2374 TROP_FD probability 1 A Tropopause Found
2375 TROPP_P Pa 1 A Tropopause Pressure (primary)
2376 TROPP_T K 1 A Tropopause Temperature (primary)
2377 TROPP_Z m 1 A Tropopause Height (primary)
2378 TROPP_DZ m 72 A Relalive Tropopause Height (primary)
2379 TROPP_PD probability 72 A Tropopause Distribution (primary)
2380 TROPP_FD probability 1 A Tropopause Found (primary)
2381 hstobie_trop fraction of mode 72 I Lowest level with stratospheric chemsitry
2382 hstobie_linoz fraction of mode 72 I Lowest possible Linoz level
2383 hstobie_tropop fraction of mode 72 I Troposphere boundary calculated in chemistry
2384 dgnd_a01 m 72 A dry dgnum, interstitial, mode 01
2385 dgnw_a01 m 72 A wet dgnum, interstitial, mode 01
2386 wat_a1 m 72 A aerosol water, interstitial, mode 01
2387 dgnd_a02 m 72 A dry dgnum, interstitial, mode 02
2388 dgnw_a02 m 72 A wet dgnum, interstitial, mode 02
2389 wat_a2 m 72 A aerosol water, interstitial, mode 02
2390 dgnd_a03 m 72 A dry dgnum, interstitial, mode 03
2391 dgnw_a03 m 72 A wet dgnum, interstitial, mode 03
2392 wat_a3 m 72 A aerosol water, interstitial, mode 03
2393 SGH m 1 I Standard deviation of orography
2394 SGH30 m 1 I Standard deviation of 30s orography
2395 DQP kg/kg/s 72 A Specific humidity tendency due to precipitation
2396 FU m/s2 72 A Zonal wind forcing term
2397 FV m/s2 72 A Meridional wind forcing term
2398 VOR 1/s 72 A Relative Vorticity (2D)
2399 DIV 1/s 72 A Divergence (2D)
2400 ETADOT 1/s 73 A Vertical (eta) velocity
2401 PS&IC Pa 1 I Surface pressure
2402 U&IC m/s 72 I Zonal wind
2403 V&IC m/s 72 I Meridional wind
2404 T&IC K 72 I Temperature
2405 Q&IC kg/kg 72 I Specific humidity
2406 CLDLIQ&IC kg/kg 72 I Grid box averaged cloud liquid amount
2407 CLDICE&IC kg/kg 72 I Grid box averaged cloud ice amount
2408 NUMLIQ&IC kg/kg 72 I Grid box averaged cloud liquid number
2409 NUMICE&IC kg/kg 72 I Grid box averaged cloud ice number
2410 RAINQM&IC kg/kg 72 I Grid box averaged rain amount
2411 SNOWQM&IC kg/kg 72 I Grid box averaged snow amount
2412 NUMRAI&IC kg/kg 72 I Grid box averaged rain number
2413 NUMSNO&IC kg/kg 72 I Grid box averaged snow number
2414 H2O2&IC kg/kg 72 I H2O2
2415 H2SO4&IC kg/kg 72 I H2SO4
2416 SO2&IC kg/kg 72 I SO2
2417 DMS&IC kg/kg 72 I DMS
2418 SOAG&IC kg/kg 72 I SOAG
2419 so4_a1&IC kg/kg 72 I so4_a1
2420 pom_a1&IC kg/kg 72 I pom_a1
2421 soa_a1&IC kg/kg 72 I soa_a1
2422 bc_a1&IC kg/kg 72 I bc_a1
2423 dst_a1&IC kg/kg 72 I dst_a1
2424 ncl_a1&IC kg/kg 72 I ncl_a1
2425 num_a1&IC kg/kg 72 I num_a1
2426 so4_a2&IC kg/kg 72 I so4_a2
2427 soa_a2&IC kg/kg 72 I soa_a2
2428 ncl_a2&IC kg/kg 72 I ncl_a2
2429 num_a2&IC kg/kg 72 I num_a2
2430 dst_a3&IC kg/kg 72 I dst_a3
2431 ncl_a3&IC kg/kg 72 I ncl_a3
2432 so4_a3&IC kg/kg 72 I so4_a3
2433 num_a3&IC kg/kg 72 I num_a3
2434 DYN_T K 72 A Temperature (dyn grid)
2435 DYN_Q kg/kg 72 A Water Vapor (dyn grid
2436 DYN_U m/s 72 A Zonal Velocity
2437 DYN_V m/s 72 A Meridional Velocity
2438 DYN_OMEGA Pa/s 72 A Vertical Velocity
2439 DYN_PS Pa 1 A Surface pressure
2440 TDIFF K 72 A difference from observed temp
2441 TOBS K 72 A observed temp
2442 QDIFF kg/kg 72 A difference from observed water
2443 QOBS kg/kg 72 A observed water
2444 PRECOBS mm/day 72 A Total (convective and large-scale) precipitation rate
2445 DIVQ kg/kg/s 72 A Q advection tendency (horizontal)
2446 DIVQ3D kg/kg/s 72 A Q advection tendency (horiz/vert combined)
2447 DIVV m/s2 72 A V advection tendency (horizontal)
2448 DIVU m/s2 72 A U advection tendency (horizontal)
2449 DIVT K/s 72 A T advection tendency (horizontal)
2450 DIVT3D K/s 72 A T advection tendency (horiz/vert combined)
2451 TVADV K/s 72 A T advection tendency (vertical)
2452 QVADV kg/kg/s 72 A Q advection tendency (vertical)
2453 SHFLXOBS W/m2 1 A Obs Surface sensible heat flux
2454 LHFLXOBS W/m2 1 A Obs Surface latent heat flux
2455 TRELAX K 72 A t relaxation amount
2456 QRELAX kg/kg 72 A q relaxation amount
2457 TAURELAX seconds 72 A relaxation time constant
intht:nfmaster= 2457
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FLDLST: History file 1 contains 578 fields
Write frequency: 1
Filename specifier: %c.eam.h%t.%y-%m-%d-%s.nc
Output precision: single
Number of time samples per file: 10000
Fields are represented on global grids:
100
Included fields are:
1 ADRAIN Micron 72 A Average rain effective Diameter
2 ADSNOW Micron 72 A Average snow effective Diameter
3 AEROD_v 1 1 A Total Aerosol Optical Depth in visible band
4 ANRAIN m-3 72 A Average rain number conc
5 ANSNOW m-3 72 A Average snow number conc
6 AODALL 1 A AOD 550 nm for all time and species
7 AODDUST1 1 A Aerosol optical depth 550 nm model 1 from dust
8 AODDUST3 1 A Aerosol optical depth 550 nm model 3 from dust
9 AODVIS 1 A Aerosol optical depth 550 nm
10 APRL m/s 1 A Average Stratiform Precip Rate over efficiency calculation
11 AQRAIN kg/kg 72 A Average rain mixing ratio
12 AQSNOW kg/kg 72 A Average snow mixing ratio
13 AREI Micron 72 A Average ice effective radius
14 AREL Micron 72 A Average droplet effective radius
15 AWNC m-3 72 A Average cloud water number conc
16 AWNI m-3 72 A Average cloud ice number conc
17 BERGO kg/kg/s 72 A Conversion of cloud water to cloud ice from bergeron
18 BERGSO kg/kg/s 72 A Conversion of cloud water to snow from bergeron
19 BURDEN1 kg/m2 1 A Aerosol burden mode 1
20 BURDEN2 kg/m2 1 A Aerosol burden mode 2
21 BURDEN3 kg/m2 1 A Aerosol burden mode 3
22 C11_Skw_fnc count 73 A C11_Skw_fnc, C_11 parameter with Sk_w applied
23 C1_Skw_fnc - 73 A C1_Skw_fnc, C_1 parameter with Sk_w applied
24 C6rt_Skw_fnc - 73 A C6rt_Skw_fnc, C_6rt parameter with Sk_w applied
25 C6thl_Skw_fnc - 73 A C6thl_Skw_fnc, C_6thl parameter with Sk_w applied
26 C7_Skw_fnc - 73 A C7_Skw_fnc, C_7 parameter with Sk_w applied
27 CCN3 1/cm3 72 A CCN concentration at S=0.1%
28 CDNUMC 1/m2 1 A Vertically-integrated droplet concentration
29 CLDHGH 1 1 A Vertically-integrated high cloud
30 CLDICE kg/kg 72 A Grid box averaged cloud ice amount
31 CLDICEAP kg/kg 72 A CLDICE after physics
32 CLDICEBP kg/kg 72 A CLDICE before physics
33 CLDLIQ kg/kg 72 A Grid box averaged cloud liquid amount
34 CLDLIQAP kg/kg 72 A CLDLIQ after physics
35 CLDLIQBP kg/kg 72 A CLDLIQ before physics
36 CLDLOW 1 1 A Vertically-integrated low cloud
37 CLDMED 1 1 A Vertically-integrated mid-level cloud
38 CLDTOT 1 1 A Vertically-integrated total cloud
39 CLOUD 1 72 A Cloud fraction
40 CLOUDFRAC_CLUBB 1 72 A Cloud Fraction
41 CME kg/kg/s 72 A Rate of cond-evap within the cloud
42 CMEIOUT kg/kg/s 72 A Rate of deposition/sublimation of cloud ice
43 CMFDICE kg/kg/s 72 A Cloud ice tendency - shallow convection
44 CMFDLIQ kg/kg/s 72 A Cloud liq tendency - shallow convection
45 CMFDQ kg/kg/s 72 A QV tendency - shallow convection
46 CMFDT K/s 72 A T tendency - shallow convection
47 CONCLD fraction 72 A Convective cloud cover
48 DCCLDICE kg/kg/s 72 A CLDICE tendency due to moist processes
49 DCCLDLIQ kg/kg/s 72 A CLDLIQ tendency due to moist processes
50 DCQ kg/kg/s 72 A Q tendency due to moist processes
51 DMS_SRF mol/mol 1 A DMS in bottom layer
52 DPDLFICE kg/kg/s 72 A Detrained ice from deep convection
53 DPDLFLIQ kg/kg/s 72 A Detrained liquid water from deep convection
54 DPDLFT K/s 72 A T-tendency due to deep convective detrainment
55 DTCOND K/s 72 A T tendency - moist processes
56 DTCORE K/s 72 A T tendency due to dynamical core
57 DTENDTH W/m2 1 A Dynamic Tendency of Total (vertically integrated) moist static energy
58 DTENDTQ kg/m2/s 1 A Dynamic Tendency of Total (vertically integrated) specific humidity
59 EVAPPREC kg/kg/s 72 A Rate of evaporation of falling precip
60 EVAPSNOW kg/kg/s 72 A Rate of evaporation of falling snow
61 FDL W/m2 73 I Longwave downward flux
62 FICE 1 72 A Fractional ice content within cloud
63 FLDS W/m2 1 A Downwelling longwave flux at surface
64 FLNS W/m2 1 A Net longwave flux at surface
65 FLNSC W/m2 1 A Clearsky net longwave flux at surface
66 FLNT W/m2 1 A Net longwave flux at top of model
67 FLNTC W/m2 1 A Clearsky net longwave flux at top of model
68 FLUT W/m2 1 A Upwelling longwave flux at top of model
69 FLUTC W/m2 1 A Clearsky upwelling longwave flux at top of model
70 FREQI 1 72 A Fractional occurrence of ice
71 FREQL 1 72 A Fractional occurrence of liquid
72 FREQR 1 72 A Fractional occurrence of rain
73 FREQS 1 72 A Fractional occurrence of snow
74 FRZRDT W/kg 72 A Latent heating rate due to homogeneous freezing of rain
75 FSDS W/m2 1 A Downwelling solar flux at surface
76 FSDSC W/m2 1 A Clearsky downwelling solar flux at surface
77 FSNS W/m2 1 A Net solar flux at surface
78 FSNSC W/m2 1 A Clearsky net solar flux at surface
79 FSNT W/m2 1 A Net solar flux at top of model
80 FSNTC W/m2 1 A Clearsky net solar flux at top of model
81 FSNTOA W/m2 1 A Net solar flux at top of atmosphere
82 FSNTOAC W/m2 1 A Clearsky net solar flux at top of atmosphere
83 FSUTOA W/m2 1 A Upwelling solar flux at top of atmosphere
84 FSUTOAC W/m2 1 A Clearsky upwelling solar flux at top of atmosphere
85 Fcsed kg/(s*m^2) 73 A Fcsed, cloud water sedimentation flux
86 Fprec W/m^2 73 A Fprec, Rain flux
87 Frad W/m^2 73 A Frad, Total (sw+lw) net (up+down) radiative flux
88 Frad_LW W/m^2 73 A Frad_LW, Net long-wave radiative flux
89 Frad_LW_down W/m^2 73 A Frad_LW_down, Long-wave downwelling radiative flux
90 Frad_LW_up W/m^2 73 A Frad_LW_up, Long-wave upwelling radiative flux
91 Frad_SW W/m^2 73 A Frad_SW, Net short-wave radiative flux
92 Frad_SW_down W/m^2 73 A Frad_SW_down, Short-wave downwelling radiative flux
93 Frad_SW_up W/m^2 73 A Frad_SW_up, Short-wave upwelling radiative flux
94 H2O2_SRF mol/mol 1 A H2O2 in bottom layer
95 H2SO4_SRF mol/mol 1 A H2SO4 in bottom layer
96 HOMOO kg/kg/s 72 A Homogeneous freezing of cloud water
97 HR K/s 72 A Heating rate needed for d(theta)/dt computation
98 ICEFRAC 1 1 A Fraction of sfc area covered by sea-ice
99 ICIMR kg/kg 72 A Prognostic in-cloud ice mixing ratio
100 ICIMRST kg/kg 72 A Prognostic in-stratus ice mixing ratio
101 ICWMR kg/kg 72 A Prognostic in-cloud water mixing ratio
102 ICWMRST kg/kg 72 A Prognostic in-stratus water mixing ratio
103 INEGCLPTEND kg/kg/s 72 A Cloud ice tendency due to clipping neg values after microp
104 IWC kg/m3 72 A Grid box average ice water content
105 Kh_zm m^2/s 73 A Kh_zm, Eddy diffusivity on momentum levels
106 Kh_zt m^2/s 73 A Kh_zt, Eddy diffusivity
107 LANDFRAC 1 1 A Fraction of sfc area covered by land
108 LHFLX W/m2 1 A Surface latent heat flux
109 LNEGCLPTEND kg/kg/s 72 A Cloud liq tendency due to clipping neg values after microp
110 LWCF W/m2 1 A Longwave cloud forcing
111 Lscale m 73 A L, Turbulent mixing length
112 Lscale_down m 73 A Lscale_down, Downward mixing length
113 Lscale_pert_1 m 73 A Lscale_pert_1, Mixing length using a perturbed value of rtm/thlm
114 Lscale_pert_2 m 73 A Lscale_pert_2, Mixing length using a perturbed value of rtm/thlm
115 Lscale_up m 73 A Lscale_up, Upward mixing length
116 MELTO kg/kg/s 72 A Melting of cloud ice
117 MELTSDT W/kg 72 A Latent heating rate due to melting of snow
118 MNUCCCO kg/kg/s 72 A Immersion freezing of cloud water
119 MNUCCDO kg/kg/s 72 A Homogeneous and heterogeneous nucleation from vapor
120 MNUCCDOhet kg/kg/s 72 A Heterogeneous nucleation from vapor
121 MNUCCRO kg/kg/s 72 A Heterogeneous freezing of rain to snow
122 MNUCCTO kg/kg/s 72 A Contact freezing of cloud water
123 MPDI2P kg/kg/s 72 A Ice <--> Precip tendency - Morrison microphysics
124 MPDI2V kg/kg/s 72 A Ice <--> Vapor tendency - Morrison microphysics
125 MPDI2W kg/kg/s 72 A Ice <--> Water tendency - Morrison microphysics
126 MPDICE kg/kg/s 72 A CLDICE tendency - Morrison microphysics
127 MPDLIQ kg/kg/s 72 A CLDLIQ tendency - Morrison microphysics
128 MPDQ kg/kg/s 72 A Q tendency - Morrison microphysics
129 MPDT W/kg 72 A Heating tendency - Morrison microphysics
130 MPDW2I kg/kg/s 72 A Water <--> Ice tendency - Morrison microphysics
131 MPDW2P kg/kg/s 72 A Water <--> Precip tendency - Morrison microphysics
132 MPDW2V kg/kg/s 72 A Water <--> Vapor tendency - Morrison microphysics
133 MSACWIO kg/kg/s 72 A Conversion of cloud water from rime-splintering
134 NUMICE 1/kg 72 A Grid box averaged cloud ice number
135 NUMLIQ 1/kg 72 A Grid box averaged cloud liquid number
136 NUMRAI 1/kg 72 A Grid box averaged rain number
137 NUMSNO 1/kg 72 A Grid box averaged snow number
138 Nc_activated num/kg 73 A Nc_activated, Droplets activated by GFDL activation
139 Nc_in_cloud num/kg 73 A Nc_in_cloud, In cloud droplet concentration
140 Ncm num/kg 73 A Ncm, Cloud droplet number concentration
141 Ncnm num/kg 73 A Ncnm, Cloud nuclei concentration (PDF)
142 OCNFRAC 1 1 A Fraction of sfc area covered by ocean
143 OMEGA Pa/s 72 A Vertical velocity (pressure)
144 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface
145 OMEGAT K Pa/s 72 A Vertical heat flux
146 PBLH m 1 A PBL height
147 PE 1 1 A Stratiform Precipitation Efficiency (precip/cmeliq)
148 PEFRAC 1 1 A Fraction of timesteps precip efficiency reported
149 PHIS m2/s2 1 I Surface geopotential
150 PRACSO kg/kg/s 72 A Accretion of rain by snow
151 PRAIO kg/kg/s 72 A Accretion of cloud ice by rain
152 PRAO kg/kg/s 72 A Accretion of cloud water by rain
153 PRCIO kg/kg/s 72 A Autoconversion of cloud ice
154 PRCO kg/kg/s 72 A Autoconversion of cloud water
155 PRECC m/s 1 A Convective precipitation rate (liq + ice)
156 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice)
157 PRECSC m/s 1 A Convective snow rate (water equivalent)
158 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent)
159 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice)
160 PRODPREC kg/kg/s 72 A Rate of conversion of condensate to precip
161 PS Pa 1 A Surface pressure
162 PSACWSO kg/kg/s 72 A Accretion of cloud water by snow
163 PSL Pa 1 A Sea level pressure
164 PTECLDICE kg/kg/s 72 A CLDICE total physics tendency
165 PTECLDLIQ kg/kg/s 72 A CLDLIQ total physics tendency
166 PTEQ kg/kg/s 72 A Q total physics tendency
167 PTTEND K/s 72 A T total physics tendency
168 PTTEND_RESID K/s 72 A T-tendency due to BAB kluge at end of tphysac (diagnostic not part of T-budget)
169 Q kg/kg 72 A Specific humidity
170 QAP kg/kg 72 A Specific humidity (after physics)
171 QBP kg/kg 72 A Specific humidity (before physics)
172 QCHFTEN kg/kg/s 72 A Cloud water mixing ratio tendency from hole filling
173 QCRAT fraction 72 A Qc Limiter: Fraction of qc tendency applied
174 QCRESO kg/kg/s 72 A Residual condensation term for cloud water
175 QCSEDTEN kg/kg/s 72 A Cloud water mixing ratio tendency from sedimentation
176 QCSEVAP kg/kg/s 72 A Rate of evaporation of falling cloud water
177 QDIFF kg/kg 72 A difference from observed water
178 QFLX kg/m2/s 1 A Surface water flux
179 QIHFTEN kg/kg/s 72 A Cloud ice mixing ratio tendency from hole filling
180 QIRESO kg/kg/s 72 A Residual deposition term for cloud ice
181 QISEDTEN kg/kg/s 72 A Cloud ice mixing ratio tendency from sedimentation
182 QISEVAP kg/kg/s 72 A Rate of sublimation of falling cloud ice
183 QREFHT kg/kg 1 A Reference height humidity
184 QRHFTEN kg/kg/s 72 A Rain water mixing ratio tendency from hole filling
185 QRL K/s 72 A Longwave heating rate
186 QRS K/s 72 A Solar heating rate
187 QRSEDTEN kg/kg/s 72 A Rain mixing ratio tendency from sedimentation
188 QSHFTEN kg/kg/s 72 A Snow mixing ratio tendency from hole filling
189 QSSEDTEN kg/kg/s 72 A Snow mixing ratio tendency from sedimentation
190 QVHFTEN kg/kg/s 72 A Water vapor mixing ratio tendency from hole filling
191 QVRES kg/kg/s 72 A Rate of residual condensation term
192 RACAU kg/kg/s 1 A Accretion/autoconversion ratio from vertical average
193 RAINQM kg/kg 72 A Grid box averaged rain amount
194 RAINQMAP kg/kg 72 A RAINQM after physics
195 RAINQMBP kg/kg 72 A RAINQM before physics
196 RCMTEND_CLUBB g/kg /s 72 A Cloud Liquid Water Tendency
197 RELHUM percent 72 A Relative humidity
198 RHW percent 72 A Relative humidity with respect to liquid
199 RIMTEND_CLUBB g/kg /s 72 A Cloud Ice Tendency
200 RVMTEND_CLUBB g/kg /s 72 A Water vapor tendency
201 Richardson_num - 73 A Richardson_num, Richardson number
202 SHFLX W/m2 1 A Surface sensible heat flux
203 SILHS_CLUBB_ICE_SS_FRAC frac 72 A Ice supersaturation fraction from CLUBB
204 SILHS_CLUBB_PRECIP_FRAC frac 72 A Precipitation fraction from CLUBB (set_up_pdf_params_incl_hydromet)
205 SL J/kg 72 A Liquid water static energy
206 SNOWHICE m 1 A Snow depth over ice
207 SNOWHLND m 1 A Water equivalent snow depth
208 SNOWQM kg/kg 72 A Grid box averaged snow amount
209 SNOWQMAP kg/kg 72 A SNOWQM after physics
210 SNOWQMBP kg/kg 72 A SNOWQM before physics
211 SO2_SRF mol/mol 1 A SO2 in bottom layer
212 SOAG_SRF mol/mol 1 A SOAG in bottom layer
213 SOLIN W/m2 1 A Solar insolation
214 STEND_CLUBB k/s 72 A Temperature tendency
215 SWCF W/m2 1 A Shortwave cloud forcing
216 Skw_velocity m/s 73 A Skw_velocity, Skewness velocity
217 T K 72 A Temperature
218 TAP K 72 A Temperature (after physics)
219 TAUGWX N/m2 1 A Zonal gravity wave surface stress
220 TAUGWY N/m2 1 A Meridional gravity wave surface stress
221 TAUX N/m2 1 A Zonal surface stress
222 TAUY N/m2 1 A Meridional surface stress
223 TBP K 72 A Temperature (before physics)
224 TDIFF K 72 A difference from observed temp
225 TFIX K/s 1 A T fixer (T equivalent of Energy correction)
226 TGCLDCWP kg/m2 1 A Total grid-box cloud water path (liquid and ice)
227 TGCLDIWP kg/m2 1 A Total grid-box cloud ice water path
228 TGCLDLWP kg/m2 1 A Total grid-box cloud liquid water path
229 TH7001000 K 1 A Theta difference 700 mb - 1000 mb
230 THFTEN K/s 72 A Temperature tendency from hole filling
231 TMQ kg/m2 1 A Total (vertically integrated) precipitable water
232 TREFHT K 1 A Reference height temperature
233 TROP_P Pa 1 A Tropopause Pressure
234 TROP_T K 1 A Tropopause Temperature
235 TS K 1 A Surface temperature (radiative)
236 TSMN K 1 M Minimum surface temperature over output period
237 TSMX K 1 X Maximum surface temperature over output period
238 TTEND_TOT K/s 72 A Total temperature tendency
239 TTGW K/s 72 A T tendency - gravity wave drag
240 TTGWORO K/s 72 A T tendency - orographic gravity wave drag
241 TUH W/m 1 A Total (vertically integrated) zonal MSE flux
242 TUQ kg/m/s 1 A Total (vertically integrated) zonal water flux
243 TVH W/m 1 A Total (vertically integrated) meridional MSE flux
244 TVQ kg/m/s 1 A Total (vertically integrated) meridional water flux
245 T_ADJ_CLUBB K 72 A Temperature adjustment from the CLUBB energy fixer
246 T_in_K K 73 A T_in_K, Absolute temperature
247 U m/s 72 A Zonal wind
248 U10 m/s 1 A 10m wind speed
249 UAP m/s 72 A Zonal wind (after physics)
250 UTEND_CLUBB m/s /s 72 A U-wind Tendency
251 UU m2/s2 72 A Zonal velocity squared
252 V m/s 72 A Meridional wind
253 VAP m/s 72 A Meridional wind (after physics)
254 VNEGCLPTEND kg/kg/s 72 A Vapor tendency due to clipping neg values after microp
255 VPRAO kg/kg/s 1 A Vertical average of accretion rate
256 VPRCO kg/kg/s 1 A Vertical average of autoconversion rate
257 VQ m/s kg/kg 72 A Meridional water transport
258 VT K m/s 72 A Meridional heat transport
259 VTEND_CLUBB m/s /s 72 A V-wind Tendency
260 VTRMC m/s 72 A Mass-weighted cloud water fallspeed
261 VTRMI m/s 72 A Mass-weighted cloud ice fallspeed
262 VU m2/s2 72 A Meridional flux of zonal momentum
263 VV m2/s2 72 A Meridional velocity squared
264 WSUB m/s 72 A Diagnostic sub-grid vertical velocity
265 Z3 m 72 A Geopotential Height (above sea level)
266 a3_coef count 73 A a3_coef, Quantity in formula 25 from Equations for CLUBB
267 a3_coef_zt count 73 A a3_coef_zt, The a3 coefficient interpolated the the zt grid
268 bc_a1_SRF kg/kg 1 A bc_a1 in bottom layer
269 chi_1 kg/kg 73 A chi_1, pdf parameter: Mellor's s (extended liq) for component 1
270 chi_2 kg/kg 73 A chi_2, pdf parameter: Mellor's s (extended liq) for component 2
271 cloud_cover count 73 A cloud_cover, Cloud cover (between 0 and 1)
272 cloud_frac - 73 A cloud_frac, Cloud fraction (between 0 and 1)
273 cloud_frac_1 - 73 A cloud_frac_1, pdf parameter cloud_frac_1
274 cloud_frac_2 - 73 A cloud_frac_2, pdf parameter cloud_frac_2
275 cloud_frac_zm - 73 A cloud_frac_zm, Cloud fraction
276 corr_chi_eta_1 - 73 A corr_chi_eta_1, Correlation of chi (s) and eta (t) (1st PDF component)
277 corr_chi_eta_2 - 73 A corr_chi_eta_2, Correlation of chi (s) and eta (t) (2nd PDF component)
278 corr_rt_thl_1 - 73 A corr_rt_thl_1, Correlation of rt and thl (1st PDF component)
279 covar_chi_eta_1 kg^2/kg^2 73 A covar_chi_eta_1, Covariance of chi(s) and eta(t) (1st PDF component)
280 covar_chi_eta_2 kg^2/kg^2 73 A covar_chi_eta_2, Covariance of chi(s) and eta(t) (2nd PDF component)
281 crt_1 - 73 A crt_1, Coefficient on rt in chi/eta equations (1st PDF comp.)
282 crt_2 - 73 A crt_2, Coefficient on rt in chi/eta equations (2nd PDF comp.)
283 cthl_1 kg/kg/K 73 A cthl_1, Coefficient on theta-l in chi/eta equations (1st PDF comp.)
284 cthl_2 kg/kg/K 73 A cthl_2, Coefficient on theta-l in chi/eta equations (2nd PDF comp.)
285 diam m 73 A diam, Ice crystal diameter
286 dst_a1_SRF kg/kg 1 A dst_a1 in bottom layer
287 dst_a3_SRF kg/kg 1 A dst_a3 in bottom layer
288 em m^2/s^2 73 A em, Turbulent kinetic energy, usu. 0.5*(u'^2+v'^2+w'^2)
289 exner count 73 A exner, Exner function = (p/p0)**(rd/cp)
290 gamma_Skw_fnc - 73 A gamma_Skw_fnc, Gamma as a function of skewness
291 hstobie_linoz fraction of mode 72 I Lowest possible Linoz level
292 mass_ice_cryst kg 73 A mass_ice_cryst, Mass of a single ice crystal
293 mean_w_down m/s 73 A mean_w_down, Mean w <= w_ref
294 mean_w_up m/s 73 A mean_w_up, Mean w >= w_ref
295 mixt_frac count 73 A mixt_frac, pdf parameter: mixture fraction
296 ncl_a1_SRF kg/kg 1 A ncl_a1 in bottom layer
297 ncl_a2_SRF kg/kg 1 A ncl_a2 in bottom layer
298 ncl_a3_SRF kg/kg 1 A ncl_a3 in bottom layer
299 num_a1_SRF 1/kg 1 A num_a1 in bottom layer
300 num_a2_SRF 1/kg 1 A num_a2 in bottom layer
301 num_a3_SRF 1/kg 1 A num_a3 in bottom layer
302 p_in_Pa Pa 73 A p_in_Pa, Pressure
303 pom_a1_SRF kg/kg 1 A pom_a1 in bottom layer
304 precip_frac - 73 A precip_frac, Precipitation Fraction
305 precip_frac_1 - 73 A precip_frac_1, Precipitation Fraction (1st PDF component)
306 precip_frac_2 - 73 A precip_frac_2, Precipitation Fraction (2nd PDF component)
307 radht K/s 73 A radht, Total (sw+lw) radiative heating rate
308 radht_LW K/s 73 A radht_LW, Long-wave radiative heating rate
309 radht_SW K/s 73 A radht_SW, Short-wave radiative heating rate
310 rc_1 kg/kg 73 A rc_1, pdf parameter: mean rc of component 1
311 rc_2 kg/kg 73 A rc_2, pdf parameter: mean rc of component 2
312 rcm kg/kg 73 A rcm, Cloud water mixing ratio
313 rcm_icedfs kg/kg/s 73 A rcm_icedfs, Change in liquid due to ice
314 rcm_in_cloud kg/kg 73 A rcm_in_cloud, In-cloud value of rcm (for microphysics)
315 rcm_in_layer kg/kg 73 A rcm_in_layer, rcm in cloud layer
316 rcm_mc kg/kg/s 73 A rcm_mc, Time tendency of liquid water mixing ratio due microphysics
317 rcm_sd_mg_morr kg kg^{-1} s^{-1 73 A rcm_sd_mg_morr, rcm sedimentation when using morrision or MG microphysics (not in budget, included i
318 rcm_zm kg/kg 73 A rcm_zm, Total water mixing ratio
319 rcp2 (kg^2)/(kg^2) 73 A rc'^2, Variance of cloud water mixing ratio
320 rel_humidity [-] 73 A rel_humidity, Relative humidity w.r.t. liquid (between 0 and 1)
321 rho kg m^{-3} 73 A rho, Air density
322 rho_ds_zm kg m^{-3} 73 A rho_ds_zm, Dry static, base-state density
323 rho_ds_zt kg m^{-3} 73 A rho_ds_zt, Dry static base-state density
324 rho_zm kg m^{-3} 73 A rho_zm, Density on momentum levels
325 rsat kg/kg 73 A rsat, Saturation mixing ratio over liquid
326 rsati kg/kg 73 A rsati, Saturation mixing ratio over ice
327 rsatl_1 kg/kg 73 A rsatl_1, pdf parameter: sat mix rat based on tl1
328 rsatl_2 kg/kg 73 A rsatl_2, pdf parameter: sat mix rat based on tl2
329 rt_1 kg/kg 73 A rt_1, pdf parameter: mean rt of component 1
330 rt_2 kg/kg 73 A rt_2, pdf parameter: mean rt of component 2
331 rtm kg/kg 73 A rtm, Total (vapor+liquid) water mixing ratio
332 rtm_bt kg kg^{-1} s^{-1 73 A rtm_bt, rtm budget: rtm time tendency
333 rtm_cl kg kg^{-1} s^{-1 73 A rtm_cl, rtm budget: rtm clipping
334 rtm_enter_mfl kg/kg 73 A rtm_enter_mfl, Rtm before flux-limiter
335 rtm_exit_mfl kg/kg 73 A rtm_exit_mfl, Rtm exiting flux-limiter
336 rtm_forcing kg kg^{-1} s^{-1 73 A rtm_forcing, rtm budget: rt forcing (includes rtm_mc)
337 rtm_ma kg kg^{-1} s^{-1 73 A rtm_ma, rtm budget: rtm vertical mean advection
338 rtm_mc kg kg^{-1} s^{-1 73 A rtm_mc, Change in rt due to microphysics (not in budget)
339 rtm_mfl kg kg^{-1} s^{-1 73 A rtm_mfl, rtm budget: rtm correction due to monotonic flux limiter
340 rtm_mfl_max kg/kg 73 A rtm_mfl_max, Maximum allowable rtm
341 rtm_mfl_min kg/kg 73 A rtm_mfl_min, Minimum allowable rtm
342 rtm_old kg/kg 73 A rtm_old, Rtm at previous timestep
343 rtm_pd kg kg^{-1} s^{-1 73 A rtm_pd, rtm budget: rtm positive definite adjustment
344 rtm_sdmp kg kg^{-1} s^{-1 73 A rtm_sdmp, rtm budget: rtm correction due to sponge damping
345 rtm_ta kg kg^{-1} s^{-1 73 A rtm_ta, rtm budget: rtm turbulent advection
346 rtm_tacl kg kg^{-1} s^{-1 73 A rtm_tacl, rtm budget: rtm correction due to ta term (wprtp) clipping
347 rtm_without_ta kg/kg 73 A rtm_without_ta, Rtm without turbulent advection contribution
348 rtm_zm kg/kg 73 A rtm_zm, Total water mixing ratio
349 rtp2 (kg/kg)^2 73 A rt'^2, Variance of total water, rt
350 rtp2_bt (kg^2)/(kg^2 s) 73 A rt'^2_bt, rt'2 budget: rtp2 time tendency
351 rtp2_cl (kg^2)/(kg^2 s) 73 A rt'^2_cl, rtp2 budget: rtp2 clipping term
352 rtp2_dp1 (kg^2)/(kg^2 s) 73 A rt'^2_dp1, rtp2 budget: rtp2 dissipation term 1
353 rtp2_dp2 (kg^2)/(kg^2 s) 73 A rt'^2_dp2, rtp2 budget: rtp2 dissipation term 2
354 rtp2_forcing (kg/kg)^2/s 73 A rt'^2_forcing, rtp2 budget: rtp2 forcing (includes microphysics tendency)
355 rtp2_ma (kg^2)/(kg^2 s) 73 A rt'^2_ma, rtp2 budget: rtp2 mean advection
356 rtp2_mc (kg/kg)^2/s 73 A rt'^2_mc, Microphysics tendency for rtp2 (not in budget)
357 rtp2_pd (kg^2)/(kg^2 s) 73 A rt'^2_pd, rtp2 budget: rtp2 positive definite adjustment
358 rtp2_sf (kg^2)/(kg^2 s) 73 A rt'^2_sf, rtp2 budget: rtp2 surface variance
359 rtp2_ta (kg^2)/(kg^2 s) 73 A rt'^2_ta, rtp2 budget: rtp2 turbulent advection
360 rtp2_tp (kg^2)/(kg^2 s) 73 A rt'^2_tp, rtp2 budget: rtp2 turbulent production
361 rtp2_zt (kg/kg)^2 73 A rtp2_zt, rt'^2 interpolated to thermodynamic levels
362 rtprcp (kg^2)/(kg^2) 73 A rt'rc'
363 rtpthlp (kg K)/kg 73 A rt'thl', Covariance of rt and theta_l
364 rtpthlp_bt (kg K)/(kg s) 73 A rt'thl'_bt, rtpthlp budget: rtpthlp time tendency
365 rtpthlp_cl (kg K)/(kg s) 73 A rt'thl'_cl, rtpthlp budget: rtpthlp clipping term
366 rtpthlp_dp1 (kg K)/(kg s) 73 A rt'thl'_d'1, rtpthlp budget: rtpthlp dissipation term 1
367 rtpthlp_dp2 (kg K)/(kg s) 73 A rt'thl'_dp2, rtpthlp budget: rtpthlp dissipation term 2
368 rtpthlp_forcing (K kg/kg)/s 73 A rt'thl'_forcing, rtpthlp budget: rtpthlp forcing (includes microphysics tendency)
369 rtpthlp_ma (kg K)/(kg s) 73 A rt'thl'_ma, rtpthlp budget: rtpthlp mean advection
370 rtpthlp_mc (K kg/kg)/s 73 A rt'thl'_mc, Microphysics tendency for rtpthlp (not in budget)
371 rtpthlp_sf (kg K)/(kg s) 73 A rt'thl'_sf, rtpthlp budget: rtpthlp surface variance
372 rtpthlp_ta (kg K)/(kg s) 73 A rt'thl'_ta, rtpthlp budget: rtpthlp turbulent advection
373 rtpthlp_tp1 (kg K)/(kg s) 73 A rt'thl'_tp1, rtpthlp budget: rtpthlp turbulent production 1
374 rtpthlp_tp2 (kg K)/(kg s) 73 A rt'thl'_t'^2, rtpthlp budget: rtpthlp turbulent production 2
375 rtpthlp_zt (kg K)/kg 73 A rtpthlp_zt, rt'thl' interpolated to thermodynamic levels
376 rtpthvp (kg/kg) K 73 A rt'thv', Covariance of rt and theta_v
377 rvm kg/kg 73 A rvm, Vapor water mixing ratio
378 rvm_mc kg/(kg s) 73 A rvm_mc, Time tendency of vapor mixing ratio due to microphysics
379 sed_rcm kg / [m^2 s] 73 A sed_rcm, d(rcm)/dt due to cloud sedimentation
380 shear m^2/s^3 73 A shear, Wind shear production term
381 shear_sqd - 73 A shear_sqd, shear_sqd
382 sigma_sqd_w - 73 A sigma_sqd_w, Nondim w variance of Gaussian component
383 sigma_sqd_w_zt - 73 A sigma_sqd_w_zt, Nondimensionalized w variance of Gaussian component
384 snowslope 1/m 73 A snowslope, COAMPS microphysics snow slope parameter
385 so4_a1_SRF kg/kg 1 A so4_a1 in bottom layer
386 so4_a2_SRF kg/kg 1 A so4_a2 in bottom layer
387 so4_a3_SRF kg/kg 1 A so4_a3 in bottom layer
388 soa_a1_SRF kg/kg 1 A soa_a1 in bottom layer
389 soa_a2_SRF kg/kg 1 A soa_a2 in bottom layer
390 stdev_chi_1 kg/kg 73 A stdev_chi_1, pdf parameter: Std dev of chi_1
391 stdev_chi_2 kg/kg 73 A stdev_chi_2, pdf parameter: Std dev of chi_2
392 stdev_eta_1 kg/kg 73 A stdev_eta_1, Standard dev. of eta(t) (1st PDF component)
393 stdev_eta_2 kg/kg 73 A stdev_eta_2, Standard dev. of eta(t) (2nd PDF component)
394 tau_zm s 73 A tau_zm, Time-scale tau on momentum levels
395 tau_zt s 73 A tau_zt, Dissipation time
396 thl_1 K 73 A thl_1, pdf parameter: mean thl of component 1
397 thl_2 K 73 A thl_2, pdf parameter: mean thl of component 2
398 thlm K 73 A thlm, Liquid water potential temperature (theta_l)
399 thlm_bt K s^{-1} 73 A thlm_bt, thlm budget: thlm time tendency
400 thlm_cl K s^{-1} 73 A thlm_cl, thlm budget: thlm_cl
401 thlm_enter_mfl K 73 A thlm_enter_mfl, Thlm before flux-limiter
402 thlm_exit_mfl K 73 A thlm_exit_mfl, Thlm exiting flux-limiter
403 thlm_forcing K s^{-1} 73 A thlm_forcing, thlm budget: thetal forcing (includes thlm_mc and radht)
404 thlm_ma K s^{-1} 73 A thlm_ma, thlm budget: thlm vertical mean advection
405 thlm_mc K s^{-1} 73 A thlm_mc, Change in thlm due to microphysics (not in budget)
406 thlm_mfl K s^{-1} 73 A thlm_mfl, thlm budget: thlm correction due to monotonic flux limiter
407 thlm_mfl_max K 73 A thlm_mfl_max, Maximum allowable thlm
408 thlm_mfl_min K 73 A thlm_mfl_min, Minimum allowable thlm
409 thlm_old K 73 A thlm_old, Thlm at previous timestep
410 thlm_sdmp K s^{-1} 73 A thlm_sdmp, thlm budget: thlm correction due to sponge damping
411 thlm_ta K s^{-1} 73 A thlm_ta, thlm budget: thlm turbulent advection
412 thlm_tacl K s^{-1} 73 A thlm_tacl, thlm budget: thlm correction due to ta term (wpthlp) clipping
413 thlm_without_ta K 73 A thlm_without_ta, Thlm without turbulent advection contribution
414 thlm_zm K 73 A thlm_zm, Liquid potential temperature
415 thlp2 K^2 73 A thl'^2, Variance of theta_l
416 thlp2_bt (K^2)/s 73 A thl'^2_bt, thlp2 budget: thlp2 time tendency
417 thlp2_cl (K^2)/s 73 A thl'^2_cl, thlp2 budget: thlp2 clipping term
418 thlp2_dp1 (K^2)/s 73 A thl'^2_dp1, thlp2 budget: thlp2 dissipation term 1
419 thlp2_dp2 (K^2)/s 73 A thl'^2_dp2, thlp2 budget: thlp2 dissipation term 2
420 thlp2_forcing K^2/s 73 A thlp2 budget: thlp2 forcing (includes microphysics tendency) [K^2/s]
421 thlp2_ma (K^2)/s 73 A thl'^2_ma, thlp2 budget: thlp2 mean advection
422 thlp2_mc K^2/s 73 A thl'^2_mc, Microphysics tendency for thlp2 (not in budget)
423 thlp2_pd K^2/s 73 A thl'^2_pd, thlp2 budget: thlp2 positive definite adjustment
424 thlp2_sf K^2/s 73 A thl'^2_sf, thl'^2 budget: thlp2 surface variance
425 thlp2_ta (K^2)/s 73 A thl'^2_ta, thlp2 budget: thlp2 turbulent advection
426 thlp2_tp (K^2)/s 73 A thl'^2_t', thlp2 budget: thlp2 turbulent production
427 thlp2_zt K^2 73 A thlp2_zt, thl'^2 interpolated to thermodynamic levels
428 thlprcp K (kg/kg) 73 A thl'rc'
429 thlpthvp K^2 73 A thl'thv', Covariance of theta_l and theta_v
430 thv_ds_zm K 73 A thv_ds_zm, Dry, base-state theta_v
431 thv_ds_zt K 73 A thv_ds_zt, Dry base-state theta_v
432 thvm K 73 A thvm, Virtual potential temperature
433 u_T_cm cm s^{-1} 73 A u_T_cm, Ice crystal fallspeed
434 ug m/s 73 A ug, u geostrophic wind
435 um m/s 73 A u_bar, Grid-mean eastward (u) wind
436 um_bt m s^{-2} 73 A um_bt, um budget: um time tendency
437 um_cf m s^{-2} 73 A um_cf, um budget: um coriolis forcing
438 um_f m s^{-2} 73 A um_f, um budget: um forcing
439 um_gf m s^{-2} 73 A um_gf, um budget: um geostrophic forcing
440 um_ma m s^{-2} 73 A um_ma, um budget: um vertical mean advection
441 um_ndg m s^{-2} 73 A um_ndg, um budget: um nudging
442 um_ref m/s 73 A um_ref, Reference u wind
443 um_sdmp m s^{-2} 73 A um_sdmp, um budget: um sponge damping
444 um_ta m s^{-2} 73 A um_ta, um budget: um turbulent advection
445 up2 m^2/s^2 73 A u'^2, Variance of eastward (u) wind
446 up2_bt m^2/s^3 73 A u'^2_bt, up2 budget: up2 time tendency
447 up2_cl m^2/s^3 73 A u'^2_cl, up2 budget: up2 clipping
448 up2_dp1 m^2/s^3 73 A u'^2_dp1, up2 budget: up2 dissipation term 1
449 up2_dp2 m^2/s^3 73 A u'^2_d'^2, up2 budget: up2 dissipation term 2
450 up2_ma m^2/s^3 73 A u'^2_ma, up2 budget: up2 mean advection
451 up2_pd m^2/s^3 73 A u'^2_pd, up2 budget: up2 positive definite adjustment
452 up2_pr1 m^2/s^3 73 A u'^2_pr1, up2 budget: up2 pressure term 1
453 up2_pr2 m^2/s^3 73 A u'^2_pr2, up2 budget: up2 pressure term 2
454 up2_sf m^2/s^3 73 A u'^2_sf, up2 budget: up2 surface variance
455 up2_ta m^2/s^3 73 A u'^2_ta, up2 budget: up2 turbulent advection
456 up2_tp m^2/s^3 73 A u'^2_tp, up2 budget: up2 turbulent production
457 up2_zt m^2/s^2 73 A up2_zt, u'^2 interpolated to thermodynamic levels
458 upwp m^2/s^2 73 A u'w', Vertical turbulent flux of eastward (u) wind
459 upwp_zt m^2/s^2 73 A upwp_zt, u'w' interpolated to thermodynamic levels
460 varnce_rt_1 (kg^2)/(kg^2) 73 A varnce_rt_1, pdf parameter: rt variance of component 1
461 varnce_rt_2 (kg^2)/(kg^2) 73 A varnce_rt_2, pdf parameter: rt variance of component 2
462 varnce_thl_1 K^2 73 A varnce_thl_1, pdf parameter: thl variance of component 1
463 varnce_thl_2 K^2 73 A varnce_thl_2, pdf parameter: thl variance of component 2
464 varnce_w_1 m^2/s^2 73 A varnce_w_1, pdf parameter: w variance of component 1
465 varnce_w_2 m^2/s^2 73 A varnce_w_2, pdf parameter: w variance of component 2
466 vg m/s 73 A vg, v geostrophic wind
467 vm m/s 73 A v_bar, Grid-mean northward (v) wind
468 vm_bt m s^{-2} 73 A vm_bt, vm budget: vm time tendency
469 vm_cf m s^{-2} 73 A vm_cf, vm budget: vm coriolis forcing
470 vm_f m s^{-2} 73 A vm_f, vm budget: vm forcing
471 vm_gf m s^{-2} 73 A vm_gf, vm budget: vm geostrophic forcing
472 vm_ma m s^{-2} 73 A vm_ma, vm budget: vm vertical mean advection
473 vm_ndg m s^{-2} 73 A vm_ndg, vm budget: vm nudging
474 vm_ref m/s 73 A vm_ref, Reference v wind
475 vm_sdmp m s^{-2} 73 A vm_sdmp, vm budget: vm sponge damping
476 vm_ta m s^{-2} 73 A vm_ta, vm budget: vm turbulent transport
477 vp2 m^2/s^2 73 A v'^2, Variance of northward (v) wind
478 vp2_bt m^2/s^3 73 A v'2_bt, vp2 budget: vp2 time tendency
479 vp2_cl m^2/s^3 73 A v'^2_cl, vp2 budget: vp2 clipping
480 vp2_dp1 m^2/s^3 73 A v'^2_dp1, vp2 budget: vp2 dissipation term 1
481 vp2_dp2 m^2/s^3 73 A v'^2_dp2, vp2 budget: vp2 dissipation term 2
482 vp2_ma m^2/s^3 73 A v'^2_ma, vp2 budget: vp2 mean advection
483 vp2_pd m^2/s^3 73 A v'^2_pd, vp2 budget: vp2 positive definite adjustment
484 vp2_pr1 m^2/s^3 73 A v'^2_pr1, vp2 budget: vp2 pressure term 1
485 vp2_pr2 m^2/s^3 73 A v'^2_pr2, vp2 budget: vp2 pressure term 2
486 vp2_sf m^2/s^3 73 A v'^2_sf, vp2 budget: vp2 surface variance
487 vp2_ta m^2/s^3 73 A v'^2_ta, vp2 budget: vp2 turbulent advection
488 vp2_tp m^2/s^3 73 A v'^2_tp, vp2 budget: vp2 turbulent production
489 vp2_zt m^2/s^2 73 A vp2_zt, v'^2 interpolated to thermodynamic levels
490 vpwp m^2/s^2 73 A v'w', Vertical turbulent flux of northward (v) wind
491 vpwp_zt m^2/s^2 73 A vpwp_zt, v'w' interpolated to thermodynamic levels
492 w_1 m/s 73 A w_1, pdf parameter: mean w of component 1
493 w_2 m/s 73 A w_2, pdf paramete: mean w of component 2
494 wm_zm m/s 73 A wm_zm, Vertical (w) wind
495 wp2 m^2/s^2 73 A w'^2, Variance of vertical air velocity
496 wp2_ac m^2/s^3 73 A w'^2_ac, wp2 budget: wp2 accumulation term
497 wp2_bp m^2/s^3 73 A w'^2_bp, wp2 budget: wp2 buoyancy production
498 wp2_bt m^2/s^3 73 A w'^2_bt, wp2 budget: wp2 time tendency
499 wp2_cl m^2/s^3 73 A w'^2_cl, wp2 budget: wp2 clipping term
500 wp2_dp1 m^2/s^3 73 A w'^2_dp1, wp2 budget: wp2 dissipation term 1
501 wp2_dp2 m^2/s^3 73 A w'^2_d'^2, wp2 budget: wp2 dissipation term 2
502 wp2_ma m^2/s^3 73 A w'^2_ma, wp2 budget: wp2 vertical mean advection
503 wp2_pd m2/s3 73 A w'^2_pd, wp2 budget: wp2 positive definite adjustment
504 wp2_pr1 m^2/s^3 73 A w'^2_pr1, wp2 budget: wp2 pressure term 1
505 wp2_pr2 m^2/s^3 73 A w'^2_pr2, wp2 budget: wp2 pressure term 2
506 wp2_pr3 m^2/s^3 73 A w'^2_pr3, wp2 budget: wp2 pressure term 3
507 wp2_sf m2/s3 73 A w'^2_sf, wp2 budget: wp2 surface variance
508 wp2_ta m^2/s^3 73 A w'^2_ta, wp2 budget: wp2 turbulent advection
509 wp2_zt m^2/s^2 73 A wp2_zt, w'^2 interpolated to thermodyamic levels
510 wp2rcp (m^2 kg)/(s^2 kg 73 A w'^2rc'
511 wp2rtp (m^2 kg)/(s^2 kg 73 A w'^2rt', Vertical turbulent flux of w'rt'
512 wp2thlp (m^2 K)/s^2 73 A w'^2theta_l', Vertical turbulent flux of w'theta_l'
513 wp2thvp K m^2/s^2 73 A w'^2theta_v', Vertical turbulent flux of w'theta_v'
514 wp3 m^3/s^3 73 A w'^3, Third-order moment of vertical air velocity
515 wp3_ac m^{3} s^{-4} 73 A wp3_ac, wp3 budget: wp3 accumulation term
516 wp3_bp1 m^{3} s^{-4} 73 A wp3_bp1, wp3 budget: wp3 buoyancy production
517 wp3_bt m^{3} s^{-4} 73 A wp3_bt, wp3 budget: wp3 time tendency
518 wp3_cl m^{3} s^{-4} 73 A wp3_cl, wp3 budget: wp3 clipping term
519 wp3_dp1 m^{3} s^{-4} 73 A wp3_dp1, wp3 budget: wp3 dissipation term 1
520 wp3_ma m^{3} s^{-4} 73 A wp3_ma, wp3 budget: wp3 vertical mean advection
521 wp3_on_wp2 m/s 73 A w'^3_on_w'^2, Smoothed version of wp3 / wp2
522 wp3_on_wp2_zt m/s 73 A wp3_on_wp2_zt, Smoothed version of wp3 / wp2
523 wp3_pr1 m^{3} s^{-4} 73 A wp3_pr1, wp3 budget: wp3 pressure term 1
524 wp3_pr2 m^{3} s^{-4} 73 A wp3_pr2, wp3 budget: wp3 pressure term 2
525 wp3_pr_dfsn m^{3} s^{-4} 73 A wp3_pr_dfsn, wp3 budget: wp3 pressure diffusion term
526 wp3_pr_turb m^{3} s^{-4} 73 A wp3_pr_turb, wp3 budget: wp3 pressure-turbulence correlation term
527 wp3_ta m^{3} s^{-4} 73 A wp3_ta, wp3 budget: wp3 turbulent advection
528 wp3_tp m^{3} s^{-4} 73 A wp3_tp, wp3 budget: wp3 turbulent transport
529 wp3_zm (m^3)/(s^3) 73 A w'^3_zm, w'^3 interpolated to moment. levels
530 wp4 (m^4)/(s^4) 73 A w'^4, Fourth-order moment of vertical air velocity
531 wprcp (m/s) (kg/kg) 73 A w'rc'
532 wprtp (m kg)/(s kg) 73 A w'rt', Vertical turbulent flux of total water, rt
533 wprtp2 (m kg)/(s kg) 73 A w'rt'^2, Vertical turbulent flux of rt'^2
534 wprtp_ac (m kg)/(s^2 kg) 73 A w'rt'_ac, wprtp budget: wprtp accumulation term
535 wprtp_bp (m kg)/(s^2 kg) 73 A w'rt'_b', wprtp budget: wprtp buoyancy production
536 wprtp_bt (m kg)/(s^2 kg) 73 A w'rt'_bt, wprtp budget: wprtp time tendency
537 wprtp_cl (m kg)/(s^2 kg) 73 A w'rt'_cl, wprtp budget: wprtp clipping term
538 wprtp_dp1 (m kg)/(s^2 kg) 73 A w'rt'_dp1, wprtp budget: wprtp dissipation term 1
539 wprtp_enter_mfl (m kg)/(s kg) 73 A w'rt'_enter_mfl, Wprtp entering flux limiter
540 wprtp_exit_mfl (m kg)/(s kg) 73 A w'rt'_exit_mfl, Wprtp exiting flux limiter
541 wprtp_forcing (m kg/kg)/s^2 73 A w'rt'_forcing, wprtp budget: wprtp forcing (includes microphysics tendency)
542 wprtp_ma (m kg)/(s^2 kg) 73 A w'rt'_ma, wprtp budget: wprtp mean advection
543 wprtp_mc (m kg/kg)/s^2 73 A w'rt'_mc, Microphysics tendency for wprtp (not in budget)
544 wprtp_mfl (m kg)/(s^2 kg) 73 A w'rt'_mfl, wprtp budget: wprtp monotonic flux limiter
545 wprtp_mfl_max (m kg)/(s kg) 73 A w'rt'_mfl_max, Maximum allowable wprtp
546 wprtp_mfl_min (m kg)/(s kg) 73 A w'rt'_mfl_min, Minimum allowable wprtp
547 wprtp_pd (m kg)/(s^2 kg) 73 A w'rt'_pd, wprtp budget: wprtp flux corrected trans. term
548 wprtp_pr1 (m kg)/(s^2 kg) 73 A w'rt'_pr1, wprtp budget: wprtp pressure term 1
549 wprtp_pr2 (m kg)/(s^2 kg) 73 A w'rt'_pr2, wprtp budget: wprtp pressure term 2
550 wprtp_pr3 (m kg)/(s^2 kg) 73 A w'rt'_pr3, wprtp budget: wprtp pressure term 3
551 wprtp_sicl (m kg)/(s^2 kg) 73 A w'rt'_sicl, wprtp budget: wprtp semi-implicit clipping term
552 wprtp_ta (m kg)/(s^2 kg) 73 A w'rt'_ta, wprtp budget: wprtp turbulent advection
553 wprtp_tp (m kg)/(s^2 kg) 73 A w'rt'_t', wprtp budget: wprtp turbulent production
554 wprtp_zt (m kg)/(s kg) 73 A wprtp_zt, w'rt' interpolated to thermodynamic levels
555 wprtpthlp (m kg K)/(s kg) 73 A w'rt'theta_l', Vertical turbulent flux of rt'theta_l'
556 wpthlp (m K)/s 73 A w'thl', Vertical turbulent flux of theta_l
557 wpthlp2 (m K^2)/s 73 A w'theta_l'^2, Vertical turbulent flux of theta_l'^2
558 wpthlp_ac (m K)/s^2 73 A w'thl'_ac, wpthlp budget: wpthlp accumulation term
559 wpthlp_bp (m K)/s^2 73 A w'thl'_b', wpthlp budget: wpthlp buoyancy production
560 wpthlp_bt (m K)/s^2 73 A w'thl'_bt, wpthlp budget
561 wpthlp_cl (m K)/s^2 73 A w'thl'_cl, wpthlp budget: wpthlp clipping term
562 wpthlp_dp1 (m K)/s^2 73 A w'thl'_dp1, wpthlp budget: wpthlp dissipation term 1
563 wpthlp_entermfl (m K)/s 73 A w'thl'_entermfl, Wpthlp entering flux limiter
564 wpthlp_exit_mfl (m K)/s 73 A w'thl'_exit_mfl, Wpthlp exiting flux limiter
565 wpthlp_forcing (m K)/s^2 73 A w'thl'_forcing, wpthlp budget: wpthlp forcing (includes microphysics tendency)
566 wpthlp_ma (m K)/s^2 73 A w'thl'_ma, wpthlp budget: wpthlp mean advection
567 wpthlp_mc (m K)/s^2 73 A w'thl'_mc, Microphysics tendency for wpthlp (not in budget)
568 wpthlp_mfl (m K)/s^2 73 A w'thl'_mfl, wpthlp budget: wpthlp monotonic flux limiter
569 wpthlp_mfl_max (m K)/s 73 A w'thl'_mfl_max, Maximum allowable wpthlp
570 wpthlp_mfl_min (m K)/s 73 A w'thl'_mfl_min, Minimum allowable wpthlp
571 wpthlp_pr1 (m K)/s^2 73 A w'thl'_pr1, wpthlp budget: wpthlp pressure term 1
572 wpthlp_pr2 (m K)/s^2 73 A w'thl'_pr2, wpthlp budget: wpthlp pressure term 2
573 wpthlp_pr3 (m K)/s^2 73 A w'thl'_pr3, wpthlp budget: wpthlp pressure term 3
574 wpthlp_sicl (m K)/s^2 73 A w'thl'_sicl, wpthlp budget: wpthlp semi-implicit clipping term
575 wpthlp_ta (m K)/s^2 73 A w'thl'_ta, wpthlp budget: wpthlp turbulent advection
576 wpthlp_tp (m K)/s^2 73 A w'thl'_tp, wpthlp budget: wpthlp turbulent production
577 wpthlp_zt (m K)/s 73 A wpthlp_zt, w'thl' interpolated to thermodynamic levels
578 wpthvp K m/s 73 A w'thv', Buoyancy flux
FLDLST: History file 12 contains 41 fields
Write frequency: YEARLY (INITIAL CONDITIONS)
Filename specifier: %c.eam.i.%y-%m-%d-%s.nc
Output precision: double
Number of time samples per file: 1
Fields are represented on global grids:
100
Included fields are:
1 CLDICE&IC kg/kg 72 I Grid box averaged cloud ice amount
2 CLDLIQ&IC kg/kg 72 I Grid box averaged cloud liquid amount
3 DMS&IC kg/kg 72 I DMS
4 H2O2&IC kg/kg 72 I H2O2
5 H2SO4&IC kg/kg 72 I H2SO4
6 ICEFRAC&IC fraction 1 I Fraction of sfc area covered by sea-ice
7 NUMICE&IC kg/kg 72 I Grid box averaged cloud ice number
8 NUMLIQ&IC kg/kg 72 I Grid box averaged cloud liquid number
9 NUMRAI&IC kg/kg 72 I Grid box averaged rain number
10 NUMSNO&IC kg/kg 72 I Grid box averaged snow number
11 PS&IC Pa 1 I Surface pressure
12 Q&IC kg/kg 72 I Specific humidity
13 RAINQM&IC kg/kg 72 I Grid box averaged rain amount
14 SICTHK&IC m 1 I Sea ice thickness
15 SNOWHICE&IC m 1 I Water equivalent snow depth
16 SNOWQM&IC kg/kg 72 I Grid box averaged snow amount
17 SO2&IC kg/kg 72 I SO2
18 SOAG&IC kg/kg 72 I SOAG
19 T&IC K 72 I Temperature
20 TS1&IC K 1 I TS1 subsoil temperature
21 TS2&IC K 1 I TS2 subsoil temperature
22 TS3&IC K 1 I TS3 subsoil temperature
23 TS4&IC K 1 I TS4 subsoil temperature
24 TSICE&IC K 1 I Ice temperature
25 U&IC m/s 72 I Zonal wind
26 V&IC m/s 72 I Meridional wind
27 bc_a1&IC kg/kg 72 I bc_a1
28 dst_a1&IC kg/kg 72 I dst_a1
29 dst_a3&IC kg/kg 72 I dst_a3
30 ncl_a1&IC kg/kg 72 I ncl_a1
31 ncl_a2&IC kg/kg 72 I ncl_a2
32 ncl_a3&IC kg/kg 72 I ncl_a3
33 num_a1&IC kg/kg 72 I num_a1
34 num_a2&IC kg/kg 72 I num_a2
35 num_a3&IC kg/kg 72 I num_a3
36 pom_a1&IC kg/kg 72 I pom_a1
37 so4_a1&IC kg/kg 72 I so4_a1
38 so4_a2&IC kg/kg 72 I so4_a2
39 so4_a3&IC kg/kg 72 I so4_a3
40 soa_a1&IC kg/kg 72 I soa_a1
41 soa_a2&IC kg/kg 72 I soa_a2
nstep, te 0 0.27905062803598967E+10 0.27905062803598967E+10 -0.00000000000000000E+00 0.10154000000000000E+06
chem_surfvals_set: ncdate= 20041216 co2vmr= 3.7900000000000000E-004
READ_NEXT_TRCDATA DMS
READ_NEXT_TRCDATA emiss_awb emiss_dom emiss_tra emiss_wst emiss_shp
READ_NEXT_TRCDATA SOAG_BIGALK SOAG_BIGENE SOAG_ISOPRENE SOAG_TERPENE SOAG_TOLUENE
READ_NEXT_TRCDATA emiss_awb emiss_dom emiss_ene emiss_ind emiss_tra emiss_wst emiss_shp
READ_NEXT_TRCDATA BC_emiss_awb BC_emiss_dom BC_emiss_ene BC_emiss_ind BC_emiss_tra BC_emiss_wst BC_emiss_shp OC_emiss_awb OC_emiss_dom OC_emiss_ene OC_emiss_ind OC_emiss_tra OC_emiss_wst OC_emiss_shp SO4_emiss_awb SO4_emiss_wst SO4_emiss_shp
READ_NEXT_TRCDATA SO4_emiss_dom SO4_emiss_tra
READ_NEXT_TRCDATA emiss_awb emiss_dom emiss_ene emiss_ind emiss_tra emiss_wst emiss_shp
READ_NEXT_TRCDATA emiss_awb emiss_wst emiss_shp
READ_NEXT_TRCDATA emiss_dom emiss_tra
READ_NEXT_TRCDATA emiss_ene emiss_ind forestfire grassfire contvolc
READ_NEXT_TRCDATA emiss_ene emiss_ind forestfire grassfire contvolc
READ_NEXT_TRCDATA forestfire grassfire
READ_NEXT_TRCDATA forestfire grassfire
READ_NEXT_TRCDATA BC_forestfire BC_grassfire OC_forestfire OC_grassfire SO4_emiss_ene SO4_emiss_ind SO4_forestfire SO4_grassfire SO4_contvolc
READ_NEXT_TRCDATA contvolc
READ_NEXT_TRCDATA SO4_contvolc
READ_NEXT_TRCDATA O3 OH NO3 HO2
READ_NEXT_TRCDATA ozone
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 1 1 25 21
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 1 2 25 21
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 2 1 22 15
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 2 2 22 15
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 3 1 23 17
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 3 2 23 17
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 4 1 24 20
calcsize jmode,iq,aer_type, lsfrm,lstoo 1 4 2 24 20
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 1 1 21 25
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 1 2 21 25
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 2 1 15 22
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 2 2 15 22
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 3 1 17 23
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 3 2 17 23
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 4 1 20 24
calcsize jmode,iq,aer_type, lsfrm,lstoo 2 4 2 20 24
Could not find variable Ptend. Setting to zero
nstep= 1 time= 1800.0000000000000 [s]
u = -0.990343770384788E+01 ( 72) 0.299716550641629E+02 ( 35) 0.450821542905637E+06
v = -0.379999995231640E+01 ( 72) -0.379999995231589E+01 ( 72) -0.420249594726562E+06
w = -0.472510972768447E-19 ( 73) 0.408376759500440E-19 ( 73) -0.239384905311755E-18
T = 0.195164739478843E+03 ( 24) 0.299217788696289E+03 ( 72) 0.273681097449263E+08
vTh_dp= 0.147366953454428E+05 ( 1) 0.129440931566085E+07 ( 46) 0.544932253074093E+11
dz(m) = 0.263778244536418E+02 ( 72) 0.265614231389683E+04 ( 3) 0.956634515689332E+08
dp = 0.476508197161459E+01 ( 1) 0.399807165915151E+04 ( 47) 0.155944589467967E+09
fu = -0.102584632949999E-05 ( 65) 0.976411479231270E-05 ( 72) 0.732888548509868E-05
fv = -0.986864910777917E-18 ( 37) 0.860288352974409E-05 ( 1) 0.131530929271129E-04
ft = 0.195164739478843E+03 ( 24) 0.299217788696289E+03 ( 72) 0.273688057850066E+08
fq1 = 0.000000000000000E+00 ( 1) 0.159644605687826E-01 ( 72) 0.265958691248000E+00
qv( 1)= 0.0000000000000000E+00 0.1600281079299748E-01 0.4602020706886506E+04
qv( 2)= 0.0000000000000000E+00 0.0000000000000000E+00 0.2299098441558990E-05
qv( 3)= 0.0000000000000000E+00 0.3383258748755267E-20 0.1300510129169479E-15
qv( 4)= 0.0000000000000000E+00 0.1000000000000003E-11 0.1316634169482368E+06
qv( 5)= 0.0000000000000000E+00 0.1000000000000003E-11 0.1343138326905681E+00
qv( 6)= 0.0000000000000000E+00 0.1755486218308152E-12 0.2949736314636883E-08
qv( 7)= 0.0000000000000000E+00 0.3673984886104581E-19 0.7023629613158271E-15
qv( 8)= 0.0000000000000000E+00 0.5404281309610392E-02 0.5615347254364991E+04
qv( 9)= 0.0000000000000000E+00 0.1000000000000003E-11 0.1304774502543228E-05
qv( 10)= 0.0000000000000000E+00 0.8913806326821251E-09 0.5044338824996922E-03
qv( 11)= 0.0000000000000000E+00 0.1702564128661980E-12 0.2130082559758043E-06
qv( 12)= 0.0000000000000000E+00 0.1081123078552827E-08 0.1053255082754322E-03
qv( 13)= 0.0000000000000000E+00 0.1262347363949325E-08 0.2183938115826551E-04
qv( 14)= 0.0000000000000000E+00 0.1324370928538332E-09 0.2474001540793882E-04
qv( 15)= 0.0000000000000000E+00 0.1011827171858280E-08 0.5183681525015747E-03
qv( 16)= 0.0000000000000000E+00 0.3549413690382196E-08 0.9644045701424048E-03
qv( 17)= 0.0000000000000000E+00 0.4524909834387469E-08 0.1419488275310512E-02
qv( 18)= 0.0000000000000000E+00 0.3475349436788071E-09 0.9494711608902404E-04
qv( 19)= 0.0000000000000000E+00 0.3657144520326182E-08 0.4390672066002137E-03
qv( 20)= 0.0000000000000000E+00 0.1803139488175679E-08 0.1191559262777914E-03
qv( 21)= 0.0000000000000000E+00 0.1190168978916422E+10 0.3873320827660467E+15
qv( 22)= 0.0000000000000000E+00 0.1415355330793311E-09 0.2215656010213056E-04
qv( 23)= 0.0000000000000000E+00 0.4737300967495907E-10 0.8016933091903295E-05
qv( 24)= 0.0000000000000000E+00 0.1858560883306563E-11 0.1028953058000787E-06
qv( 25)= 0.0000000000000000E+00 0.9314874683712486E+10 0.7741631512117082E+15
qv( 26)= 0.0000000000000000E+00 0.7660482086494236E-07 0.5020942006525597E-02
qv( 27)= 0.0000000000000000E+00 0.2795267870563550E-07 0.8355603551766203E-03
qv( 28)= 0.0000000000000000E+00 0.6271134158573908E-10 0.8442573055150900E-05
qv( 29)= 0.0000000000000000E+00 0.3730370453882081E+07 0.2628357362655840E+12
ps= 0.101173951723720E+06 0.101540192601646E+06 0.155959949468457E+09
M = 0.103543542397712E+05 kg/m^2 0.101536454371875E+06mb
dry M = 0.103170086149949E+05 kg/m^2
**DYNAMICS** J/m^2 W/m^2 W/m^2
KE,d/dt 0.10137404010180E+07 0.18172398436331E+01
IE,d/dt 0.19204730159337E+10 0.65472502766441E+04
PE,d/dt 0.76957389302167E+09 0.26230164170351E+04
E,dE/dt 0.26910606493564E+10 0.91720839335227E+04
Q 1,Q diss, dQ^2/dt: 0.37345624776276E+02 kg/m^2 0.2074621E-01 0.2173399E-03
Q 2,Q diss, dQ^2/dt: 0.18657297128998E-07 kg/m^2 0.1036517E-10 0.0000000E+00
Q 3,Q diss, dQ^2/dt: 0.10553703773873E-17 kg/m^2 0.5862780E-21 -0.3887182E-50
Q 4,Q diss, dQ^2/dt: 0.10684551155438E+04 kg/m^2 0.5935862E+00 0.7158360E-33
Q 5,Q diss, dQ^2/dt: 0.10899633698778E-02 kg/m^2 0.6055352E-06 0.7158360E-33
Q 6,Q diss, dQ^2/dt: 0.23937255525717E-10 kg/m^2 0.1329759E-13 -0.8697202E-32
Q 7,Q diss, dQ^2/dt: 0.56997100362464E-17 kg/m^2 0.3166296E-20 -0.5653551E-45
Q 8,Q diss, dQ^2/dt: 0.45568819635295E+02 kg/m^2 0.2531598E-01 -0.7470798E-11
Q 9,Q diss, dQ^2/dt: 0.10588309373905E-07 kg/m^2 0.5882017E-11 0.7158360E-33
Q 10,Q diss, dQ^2/dt: 0.40935058097595E-05 kg/m^2 0.2274019E-08 -0.1163866E-25
Q 11,Q diss, dQ^2/dt: 0.17285724920832E-08 kg/m^2 0.9603003E-12 -0.1875352E-32
Q 12,Q diss, dQ^2/dt: 0.85472168900474E-06 kg/m^2 0.4748144E-09 -0.4944079E-25
Q 13,Q diss, dQ^2/dt: 0.17722765411772E-06 kg/m^2 0.9845322E-10 -0.1050131E-25
Q 14,Q diss, dQ^2/dt: 0.20076644396701E-06 kg/m^2 0.1115306E-09 -0.1631073E-26
Q 15,Q diss, dQ^2/dt: 0.42065830973612E-05 kg/m^2 0.2336836E-08 0.1000644E-24
Q 16,Q diss, dQ^2/dt: 0.78261906025691E-05 kg/m^2 0.4347596E-08 0.1427328E-23
Q 17,Q diss, dQ^2/dt: 0.11519217291817E-04 kg/m^2 0.6399140E-08 0.2717212E-23
Q 18,Q diss, dQ^2/dt: 0.77050052507241E-06 kg/m^2 0.4280275E-09 0.1372817E-25
Q 19,Q diss, dQ^2/dt: 0.35630520142428E-05 kg/m^2 0.1979343E-08 -0.9093809E-24
Q 20,Q diss, dQ^2/dt: 0.96695621251356E-06 kg/m^2 0.5371614E-09 -0.4220756E-25
Q 21,Q diss, dQ^2/dt: 0.31432189353577E+13 kg/m^2 0.1746117E+10 0.1714207E+12
Q 22,Q diss, dQ^2/dt: 0.17980157687447E-06 kg/m^2 0.9988317E-10 -0.1162726E-26
Q 23,Q diss, dQ^2/dt: 0.65057807032182E-07 kg/m^2 0.3614078E-10 0.6368374E-29
Q 24,Q diss, dQ^2/dt: 0.83500047618205E-09 kg/m^2 0.4638581E-12 -0.1526280E-30
Q 25,Q diss, dQ^2/dt: 0.62823721148208E+13 kg/m^2 0.3489971E+10 -0.4177162E+13
Q 26,Q diss, dQ^2/dt: 0.40745191762947E-04 kg/m^2 0.2263475E-07 -0.2507397E-21
Q 27,Q diss, dQ^2/dt: 0.67806134500140E-05 kg/m^2 0.3766750E-08 -0.8509220E-23
Q 28,Q diss, dQ^2/dt: 0.68511896305063E-07 kg/m^2 0.3805964E-10 -0.1865617E-27
Q 29,Q diss, dQ^2/dt: 0.21329249496166E+10 kg/m^2 0.1184879E+07 -0.3831441E+06
Change from dribbled phys tendencies, viscosity, remap:
dKE/dt(W/m^2): -0.1200908E-06 0.0000000E+00 0.1646939E-04
dIE/dt(W/m^2): -0.5873038E+04 0.0000000E+00 -0.1023906E-02
dPE/dt(W/m^2): -0.2348690E+04 0.0000000E+00 -0.4100702E-03
dQ1/dt(kg/sm^2) 0.0000000E+00
IMEX max iterations, error: 0 0.000000000000000E+00 0.000000000000000E+00
WSHIST: writing time sample 0 to h-file 1 DATE=2004/12/16 NCSEC= 0
WSHIST: nhfil( 1 )=case_scripts.eam.h0.2004-12-16-00000.nc
Opening netcdf history file case_scripts.eam.h0.2004-12-16-00000.nc
Opened file case_scripts.eam.h0.2004-12-16-00000.nc to write 70
H_DEFINE: Successfully opened netcdf file
Creating new decomp: 1!72!1!!1!72!!d6!i2!
Creating new decomp: 1!1!!1!!d6!i2!
Creating new decomp: 1!73!1!!1!73!!d6!i2!
nstep, te 1 0.27897303416127520E+10 0.27900868156044564E+10 0.19127575858824734E-01 0.10154000000000000E+06
nstep= 2 time= 3600.0000000000000 [s]
u = -0.990343770384788E+01 ( 72) 0.299716550641629E+02 ( 35) 0.450821542787645E+06
v = -0.379999995231635E+01 ( 69) -0.379999995231622E+01 ( 68) -0.420249594726562E+06
w = -0.472510972768523E-19 ( 73) 0.408376759500505E-19 ( 73) -0.239384905311789E-18
T = 0.195164739478843E+03 ( 24) 0.302128099861894E+03 ( 72) 0.274400027021746E+08
vTh_dp= 0.147300470978810E+05 ( 1) 0.129440931566085E+07 ( 46) 0.544925595575738E+11
dz(m) = 0.261508159742911E+02 ( 72) 0.265614231389683E+04 ( 3) 0.956632461569415E+08
dp = 0.476508197161459E+01 ( 1) 0.399813835475520E+04 ( 47) 0.155944627478429E+09
fu = -0.184388359642056E-04 ( 65) 0.820332116227559E-03 ( 72) 0.228843840194533E-02
fv = -0.740148683083438E-18 ( 31) 0.258430344539714E-03 ( 72) 0.847880921184169E-03
ft = -0.824908681182125E-04 ( 42) 0.488171465270722E-05 ( 24) -0.149035101350169E-02
fq1 = 0.000000000000000E+00 ( 1) 0.159289213234598E-01 ( 72) 0.266651777928456E+00
qv( 1)= 0.0000000000000000E+00 0.1592873411099001E-01 0.3015564154561064E+00
qv( 2)= 0.0000000000000000E+00 0.4230195542501734E-05 0.1989715044810860E-04
qv( 3)= 0.0000000000000000E+00 0.3382529462821807E-20 0.8614806279671097E-20
qv( 4)= 0.0000000000000000E+00 0.2465539053348827E+06 0.1281777000376177E+07
qv( 5)= 0.0000000000000000E+00 0.1000000000000003E-11 0.8370114217932205E-10
qv( 6)= 0.0000000000000000E+00 0.3242575808707015E-07 0.7073049827824113E-07
qv( 7)= 0.0000000000000000E+00 0.3513387277310801E-19 0.4621107925493518E-19
qv( 8)= 0.0000000000000000E+00 0.6863451781181783E+03 0.1080691178696605E+04
qv( 9)= 0.0000000000000000E+00 0.1000000000000003E-11 0.8370114217932205E-10
qv( 10)= 0.0000000000000000E+00 0.8915648798217688E-09 0.3362749002359612E-07
qv( 11)= 0.0000000000000000E+00 0.9890986864979645E-12 0.7521064778613346E-11
qv( 12)= 0.0000000000000000E+00 0.9285164415488409E-09 0.6763615058326367E-08
qv( 13)= 0.0000000000000000E+00 0.7628514775716086E-09 0.1465974326162516E-08
qv( 14)= 0.0000000000000000E+00 0.1210718029761200E-09 0.1314976335332830E-08
qv( 15)= 0.0000000000000000E+00 0.1012338350165945E-08 0.3440394025639692E-07
qv( 16)= 0.0000000000000000E+00 0.3549078106461426E-08 0.6410746442824508E-07
qv( 17)= 0.0000000000000000E+00 0.4514874483439806E-08 0.9465763517228180E-07
qv( 18)= 0.0000000000000000E+00 0.3475032622743672E-09 0.6318282437298703E-08
qv( 19)= 0.0000000000000000E+00 0.3339306403182970E-08 0.2881929046018278E-07
qv( 20)= 0.0000000000000000E+00 0.1325268522324014E-08 0.8183105007730552E-08
qv( 21)= 0.0000000000000000E+00 0.1184614802924875E+10 0.2572528768083192E+11
qv( 22)= 0.0000000000000000E+00 0.1182883635319469E-09 0.1450007311660015E-08
qv( 23)= 0.0000000000000000E+00 0.4731447990973990E-10 0.5450178380834345E-09
qv( 24)= 0.0000000000000000E+00 0.1507033758464356E-11 0.6810102149028137E-11
qv( 25)= 0.0000000000000000E+00 0.7356340460496655E+10 0.5055345018348738E+11
qv( 26)= 0.0000000000000000E+00 0.6107704063551259E-07 0.3184933540974470E-06
qv( 27)= 0.0000000000000000E+00 0.1930675871151237E-07 0.5777217495848342E-07
qv( 28)= 0.0000000000000000E+00 0.5480714480332062E-10 0.5565962004551871E-09
qv( 29)= 0.0000000000000000E+00 0.2956639408753627E+07 0.1765728320917639E+08
ps= 0.101176393359932E+06 0.101541578520742E+06 0.155959987478920E+09
M = 0.103543566608266E+05 kg/m^2 0.101536478113132E+06mb
dry M = 0.103543542136815E+05 kg/m^2
**DYNAMICS** J/m^2 W/m^2 W/m^2
KE,d/dt 0.10137406152981E+07 0.18186142775017E+01
IE,d/dt 0.19204423111954E+10 0.65473052749005E+04
PE,d/dt 0.76956161326043E+09 0.26230384126481E+04
E,dE/dt 0.26910176650711E+10 0.91721623018259E+04
Q 1,Q diss, dQ^2/dt: 0.24471451690016E-02 kg/m^2 -0.3156270E-08 -0.4583089E-10
Q 2,Q diss, dQ^2/dt: 0.16146635621179E-06 kg/m^2 -0.3248105E-12 -0.1142411E-17
Q 3,Q diss, dQ^2/dt: 0.69909577407913E-22 kg/m^2 -0.9348527E-30 -0.3826727E-50
Q 4,Q diss, dQ^2/dt: 0.10401683510741E+05 kg/m^2 -0.2100874E-01 -0.4172091E+04
Q 5,Q diss, dQ^2/dt: 0.67923889271013E-12 kg/m^2 0.7157844E-21 0.7157327E-33
Q 6,Q diss, dQ^2/dt: 0.57398147839393E-09 kg/m^2 -0.1167155E-14 -0.2124518E-21
Q 7,Q diss, dQ^2/dt: 0.37500518495692E-21 kg/m^2 -0.7133660E-27 -0.4934136E-45
Q 8,Q diss, dQ^2/dt: 0.87698621603855E+01 kg/m^2 -0.1775312E-04 -0.9587329E-01
Q 9,Q diss, dQ^2/dt: 0.67923889271013E-12 kg/m^2 0.7157844E-21 0.7157327E-33
Q 10,Q diss, dQ^2/dt: 0.27288873835572E-09 kg/m^2 -0.1528345E-16 -0.1208334E-25
Q 11,Q diss, dQ^2/dt: 0.61033811238582E-13 kg/m^2 -0.5253538E-19 -0.5157914E-31
Q 12,Q diss, dQ^2/dt: 0.54887069439180E-10 kg/m^2 -0.2782108E-16 -0.4051946E-25
Q 13,Q diss, dQ^2/dt: 0.11896453884832E-10 kg/m^2 -0.2121987E-16 -0.8473798E-26
Q 14,Q diss, dQ^2/dt: 0.10671097749633E-10 kg/m^2 -0.1441815E-16 -0.1354160E-26
Q 15,Q diss, dQ^2/dt: 0.27918967025032E-09 kg/m^2 0.8402649E-16 0.1000097E-24
Q 16,Q diss, dQ^2/dt: 0.52023523238674E-09 kg/m^2 0.4441274E-15 0.1419973E-23
Q 17,Q diss, dQ^2/dt: 0.76815137317043E-09 kg/m^2 0.7001995E-15 0.2698192E-23
Q 18,Q diss, dQ^2/dt: 0.51273173278164E-10 kg/m^2 0.4343570E-16 0.1365073E-25
Q 19,Q diss, dQ^2/dt: 0.23386996200037E-09 kg/m^2 -0.2575169E-15 -0.8764736E-24
Q 20,Q diss, dQ^2/dt: 0.66406300316350E-10 kg/m^2 -0.4547892E-16 -0.3893099E-25
Q 21,Q diss, dQ^2/dt: 0.20876197700555E+09 kg/m^2 0.1625151E+03 0.1696339E+12
Q 22,Q diss, dQ^2/dt: 0.11766880775456E-10 kg/m^2 -0.9519442E-17 -0.1031153E-26
Q 23,Q diss, dQ^2/dt: 0.44228466088783E-11 kg/m^2 0.7205082E-18 0.6083611E-29
Q 24,Q diss, dQ^2/dt: 0.55264314470627E-13 kg/m^2 -0.9764306E-19 -0.1205024E-30
Q 25,Q diss, dQ^2/dt: 0.41024373898916E+09 kg/m^2 -0.5162295E+03 -0.3240384E+13
Q 26,Q diss, dQ^2/dt: 0.25845892605529E-08 kg/m^2 -0.4089876E-14 -0.2136678E-21
Q 27,Q diss, dQ^2/dt: 0.46882404620221E-09 kg/m^2 -0.6662389E-15 -0.6771646E-23
Q 28,Q diss, dQ^2/dt: 0.45168055899868E-11 kg/m^2 -0.3218658E-17 -0.1639848E-27
Q 29,Q diss, dQ^2/dt: 0.14328972321041E+06 kg/m^2 -0.1574234E+00 -0.3673460E+06
Change from dribbled phys tendencies, viscosity, remap:
dKE/dt(W/m^2): -0.9996789E-04 0.0000000E+00 0.1646939E-04
dIE/dt(W/m^2): -0.5833845E+04 0.0000000E+00 -0.1031448E-02
dPE/dt(W/m^2): -0.2333017E+04 0.0000000E+00 -0.4130885E-03
dQ1/dt(kg/sm^2) 0.0000000E+00
IMEX max iterations, error: 0 0.000000000000000E+00 0.000000000000000E+00
WSHIST: writing time sample 1 to h-file 1 DATE=2004/12/16 NCSEC= 1800
nstep, te 2 0.27893747547165103E+10 0.27897315917705116E+10 0.19147056948010523E-01 0.10154000000000000E+06
nstep= 3 time= 1.5000000000000000 [h]
u = -0.990343770384788E+01 ( 72) 0.299716550641629E+02 ( 35) 0.450821539118790E+06
v = -0.379999995231639E+01 ( 70) -0.378451476196275E+01 ( 1) -0.420249571050995E+06
w = -0.472510974007330E-19 ( 73) 0.472510974007329E-19 ( 73) -0.136108409456256E-16
T = 0.195164739478843E+03 ( 24) 0.299217788696289E+03 ( 72) 0.273683867321519E+08
vTh_dp= 0.147234234617135E+05 ( 1) 0.129471372047070E+07 ( 46) 0.542444357424360E+11
dz(m) = 0.261776475438992E+02 ( 72) 0.265614231389682E+04 ( 2) 0.955898448850125E+08
dp = 0.476508197161459E+01 ( 1) 0.399813643272736E+04 ( 47) 0.155393398292994E+09
fu = -0.679615285212520E-04 ( 65) 0.808978950793351E-03 ( 72) 0.231995082138382E-02
fv = -0.986864910777917E-18 ( 12) 0.220973579280065E-03 ( 72) 0.805505075841968E-03
ft = -0.138279443047521E-03 ( 56) 0.926820467872026E-04 ( 63) -0.133731797111455E-02
fq1 = 0.000000000000000E+00 ( 1) 0.153664700821598E-01 ( 72) 0.266109508521181E+00
qv( 1)= 0.0000000000000000E+00 0.1536650525754098E-01 0.3018461662418548E+00
qv( 2)= 0.0000000000000000E+00 0.7069652325201551E-05 0.6380662354651358E-04
qv( 3)= 0.0000000000000000E+00 0.3381908734408105E-20 0.8614602214890220E-20
qv( 4)= 0.0000000000000000E+00 0.4120496021106949E+06 0.3857621676564078E+07
qv( 5)= 0.0000000000000000E+00 0.1000002798993292E-11 0.8370228473777779E-10
qv( 6)= 0.0000000000000000E+00 0.1394940856303340E-05 0.8903357199642705E-05
qv( 7)= 0.0000000000000000E+00 0.2282883188580105E-19 0.4605438779767359E-19
qv( 8)= 0.0000000000000000E+00 0.1912884156322373E+05 0.1119403018217512E+06
qv( 9)= 0.0000000000000000E+00 0.1000002798993292E-11 0.8370228473777779E-10
qv( 10)= 0.0000000000000000E+00 0.8917154032439965E-09 0.3371549739248242E-07
qv( 11)= 0.0000000000000000E+00 0.4571420063625869E-12 0.5199192457816133E-11
qv( 12)= 0.0000000000000000E+00 0.7467533872885600E-09 0.6707439698554425E-08
qv( 13)= 0.0000000000000000E+00 0.6311329052565881E-09 0.1474859782248394E-08
qv( 14)= 0.0000000000000000E+00 0.1066440947254454E-09 0.1300295098609154E-08
qv( 15)= 0.0000000000000000E+00 0.1012544767687848E-08 0.3442440609485035E-07
qv( 16)= 0.0000000000000000E+00 0.3547281171214816E-08 0.6421520085908392E-07
qv( 17)= 0.0000000000000000E+00 0.4504676454363681E-08 0.9482838040274018E-07
qv( 18)= 0.0000000000000000E+00 0.3473320184459570E-09 0.6332271648971731E-08
qv( 19)= 0.0000000000000000E+00 0.2837870343881065E-08 0.2865396133451872E-07
qv( 20)= 0.0000000000000000E+00 0.1098337651919103E-08 0.8283473455932956E-08
qv( 21)= 0.0000000000000000E+00 0.1181874578173524E+10 0.2574737575481611E+11
qv( 22)= 0.0000000000000000E+00 0.9750279972849672E-10 0.1451220795887267E-08
qv( 23)= 0.0000000000000000E+00 0.4725770979946122E-10 0.5426923209866314E-09
qv( 24)= 0.0000000000000000E+00 0.1306173295075967E-11 0.6863956886214694E-11
qv( 25)= 0.0000000000000000E+00 0.5504458853437664E+10 0.5106667415207859E+11
qv( 26)= 0.0000000000000000E+00 0.4332586811041701E-07 0.3137226330829469E-06
qv( 27)= 0.0000000000000000E+00 0.1615384838976471E-07 0.5910745815825536E-07
qv( 28)= 0.0000000000000000E+00 0.4017164471939836E-10 0.5561185584252873E-09
qv( 29)= 0.0000000000000000E+00 0.2446455095078866E+07 0.1771694148873023E+08
ps= 0.101173759122290E+06 0.101541538581452E+06 0.155408758293484E+09
M = 0.103177321828079E+05 kg/m^2 0.101177332621763E+06mb
dry M = 0.103177297333114E+05 kg/m^2
**DYNAMICS** J/m^2 W/m^2 W/m^2
KE,d/dt 0.10104990958452E+07 -0.18184055041858E+01
IE,d/dt 0.19087411231149E+10 -0.65460792889943E+04
PE,d/dt 0.76487380228448E+09 -0.26225480591116E+04
E,dE/dt 0.26746254244953E+10 -0.91704457536104E+04
Q 1,Q diss, dQ^2/dt: 0.24494965109038E-02 kg/m^2 -0.3175373E-08 -0.4609664E-10
Q 2,Q diss, dQ^2/dt: 0.51779389380916E-06 kg/m^2 -0.9724532E-12 -0.7738299E-17
Q 3,Q diss, dQ^2/dt: 0.69907921412162E-22 kg/m^2 -0.9199976E-30 -0.3684606E-50
Q 4,Q diss, dQ^2/dt: 0.31304789968939E+05 kg/m^2 -0.5878433E-01 -0.2156581E+05
Q 5,Q diss, dQ^2/dt: 0.67924816462829E-12 kg/m^2 0.7158460E-21 0.7158561E-33
Q 6,Q diss, dQ^2/dt: 0.72251182340282E-07 kg/m^2 -0.1344351E-12 -0.1565494E-18
Q 7,Q diss, dQ^2/dt: 0.37373362606111E-21 kg/m^2 -0.7064216E-27 -0.6346552E-46
Q 8,Q diss, dQ^2/dt: 0.90840106454159E+03 kg/m^2 -0.1668966E-02 -0.2665032E+02
Q 9,Q diss, dQ^2/dt: 0.67924816462829E-12 kg/m^2 0.7158460E-21 0.7158561E-33
Q 10,Q diss, dQ^2/dt: 0.27360292249033E-09 kg/m^2 -0.1618765E-16 -0.1248855E-25
Q 11,Q diss, dQ^2/dt: 0.42191702957505E-13 kg/m^2 -0.1949176E-19 -0.1005276E-31
Q 12,Q diss, dQ^2/dt: 0.54431203626891E-10 kg/m^2 -0.2765032E-16 -0.3020696E-25
Q 13,Q diss, dQ^2/dt: 0.11968559798752E-10 kg/m^2 -0.2217281E-16 -0.5441886E-26
Q 14,Q diss, dQ^2/dt: 0.10551958790281E-10 kg/m^2 -0.1427886E-16 -0.1119014E-26
Q 15,Q diss, dQ^2/dt: 0.27935575153772E-09 kg/m^2 0.8275698E-16 0.1010437E-24
Q 16,Q diss, dQ^2/dt: 0.52110951883113E-09 kg/m^2 0.4384026E-15 0.1412661E-23
Q 17,Q diss, dQ^2/dt: 0.76953697912816E-09 kg/m^2 0.6934105E-15 0.2680220E-23
Q 18,Q diss, dQ^2/dt: 0.51386696420134E-10 kg/m^2 0.4281700E-16 0.1358021E-25
Q 19,Q diss, dQ^2/dt: 0.23252830799991E-09 kg/m^2 -0.2564931E-15 -0.7393123E-24
Q 20,Q diss, dQ^2/dt: 0.67220795218630E-10 kg/m^2 -0.4830611E-16 -0.2953218E-25
Q 21,Q diss, dQ^2/dt: 0.20894122281420E+09 kg/m^2 0.1602374E+03 0.1679065E+12
Q 22,Q diss, dQ^2/dt: 0.11776728259748E-10 kg/m^2 -0.9554639E-17 -0.8584212E-27
Q 23,Q diss, dQ^2/dt: 0.44039749230604E-11 kg/m^2 0.7580273E-18 0.6661653E-29
Q 24,Q diss, dQ^2/dt: 0.55701348316299E-13 kg/m^2 -0.9925748E-19 -0.8353082E-31
Q 25,Q diss, dQ^2/dt: 0.41440857678064E+09 kg/m^2 -0.5273501E+03 -0.2523360E+13
Q 26,Q diss, dQ^2/dt: 0.25458746244685E-08 kg/m^2 -0.4081150E-14 -0.1585746E-21
Q 27,Q diss, dQ^2/dt: 0.47965993515727E-09 kg/m^2 -0.7051926E-15 -0.4771188E-23
Q 28,Q diss, dQ^2/dt: 0.45129295013809E-11 kg/m^2 -0.3300220E-17 -0.1256731E-27
Q 29,Q diss, dQ^2/dt: 0.14377385308833E+06 kg/m^2 -0.1608388E+00 -0.2987751E+06
Change from dribbled phys tendencies, viscosity, remap:
dKE/dt(W/m^2): -0.1017196E-03 0.0000000E+00 0.1646945E-04
dIE/dt(W/m^2): 0.3839688E+02 0.0000000E+00 -0.1033601E-02
dPE/dt(W/m^2): 0.1535467E+02 0.0000000E+00 -0.4139498E-03
dQ1/dt(kg/sm^2) 0.0000000E+00
IMEX max iterations, error: 0 0.000000000000000E+00 0.000000000000000E+00
WSHIST: writing time sample 2 to h-file 1 DATE=2004/12/16 NCSEC= 3600
nstep, te 3 0.27890138123535705E+10 0.27893770329499002E+10 0.19489583171452121E-01 0.10154000000000000E+06
WSHIST: writing time sample 3 to h-file 1 DATE=2004/12/16 NCSEC= 5400
nstep, te 4 0.27886409934972267E+10 0.27890057365672832E+10 0.19571275615723371E-01 0.10154000000000000E+06
WSHIST: writing time sample 4 to h-file 1 DATE=2004/12/16 NCSEC= 7200
nstep, te 5 0.27882920874655523E+10 0.27886575636449218E+10 0.19610612578093004E-01 0.10154000000000000E+06
WSHIST: writing time sample 5 to h-file 1 DATE=2004/12/16 NCSEC= 9000
nstep, te 6 0.27879351478770480E+10 0.27883016241009488E+10 0.19664272671341462E-01 0.10154000000000000E+06
WSHIST: writing time sample 6 to h-file 1 DATE=2004/12/16 NCSEC= 10800
nstep, te 7 0.27875734886813273E+10 0.27879402179875669E+10 0.19677852488514013E-01 0.10154000000000000E+06
WSHIST: writing time sample 7 to h-file 1 DATE=2004/12/16 NCSEC= 12600
nstep, te 8 0.27872071304271641E+10 0.27875742749994950E+10 0.19700134713441148E-01 0.10154000000000000E+06
WSHIST: writing time sample 8 to h-file 1 DATE=2004/12/16 NCSEC= 14400
nstep, te 9 0.27868362308036709E+10 0.27872039349755211E+10 0.19730161538691119E-01 0.10154000000000000E+06
WSHIST: writing time sample 9 to h-file 1 DATE=2004/12/16 NCSEC= 16200
nstep, te 10 0.27864624655820603E+10 0.27868308487030339E+10 0.19766592389647980E-01 0.10154000000000000E+06
WSHIST: writing time sample 10 to h-file 1 DATE=2004/12/16 NCSEC= 18000
nstep, te 11 0.27860863378880348E+10 0.27864554915291009E+10 0.19807936728541625E-01 0.10154000000000000E+06
WSHIST: writing time sample 11 to h-file 1 DATE=2004/12/16 NCSEC= 19800
nstep, te 12 0.27857091996555362E+10 0.27860791795686221E+10 0.19852272587840610E-01 0.10154000000000000E+06
WSHIST: writing time sample 12 to h-file 1 DATE=2004/12/16 NCSEC= 21600
nstep, te 13 0.27853309652907643E+10 0.27857018201415644E+10 0.19899219736546112E-01 0.10154000000000000E+06
WSHIST: writing time sample 13 to h-file 1 DATE=2004/12/16 NCSEC= 23400
nstep, te 14 0.27849520773891716E+10 0.27853237299710207E+10 0.19942024152887657E-01 0.10154000000000000E+06
WSHIST: writing time sample 14 to h-file 1 DATE=2004/12/16 NCSEC= 25200
nstep, te 15 0.27845705150074487E+10 0.27849427303808985E+10 0.19972222257898648E-01 0.10154000000000000E+06
WSHIST: writing time sample 15 to h-file 1 DATE=2004/12/16 NCSEC= 27000
nstep, te 16 0.27841891550971580E+10 0.27845627999144316E+10 0.20048922931193786E-01 0.10154000000000000E+06
WSHIST: writing time sample 16 to h-file 1 DATE=2004/12/16 NCSEC= 28800
nstep, te 17 0.27838067501335988E+10 0.27841819094410553E+10 0.20130186996832642E-01 0.10154000000000000E+06
WSHIST: writing time sample 17 to h-file 1 DATE=2004/12/16 NCSEC= 30600
nstep, te 18 0.27834256851384463E+10 0.27838016680990729E+10 0.20174382334667219E-01 0.10154000000000000E+06
WSHIST: writing time sample 18 to h-file 1 DATE=2004/12/16 NCSEC= 32400
nstep, te 19 0.27830460404680176E+10 0.27834228218554044E+10 0.20217224081270819E-01 0.10154000000000000E+06
WSHIST: writing time sample 19 to h-file 1 DATE=2004/12/16 NCSEC= 34200
nstep, te 20 0.27826642522229161E+10 0.27830415287179308E+10 0.20243790419715482E-01 0.10154000000000000E+06
WSHIST: writing time sample 20 to h-file 1 DATE=2004/12/16 NCSEC= 36000
nstep, te 21 0.27822825943665924E+10 0.27826627560738063E+10 0.20398604281297198E-01 0.10154000000000000E+06
WSHIST: writing time sample 21 to h-file 1 DATE=2004/12/16 NCSEC= 37800
nstep, te 22 0.27819231990570264E+10 0.27823050766064687E+10 0.20490672435354698E-01 0.10154000000000000E+06
WSHIST: writing time sample 22 to h-file 1 DATE=2004/12/16 NCSEC= 39600
nstep, te 23 0.27816582963814244E+10 0.27820410706639013E+10 0.20538789070912365E-01 0.10154000000000000E+06
WSHIST: writing time sample 23 to h-file 1 DATE=2004/12/16 NCSEC= 41400
nstep, te 24 0.27814722007809839E+10 0.27818555694926071E+10 0.20570684773973311E-01 0.10154000000000000E+06
WSHIST: writing time sample 24 to h-file 1 DATE=2004/12/16 NCSEC= 43200
nstep, te 25 0.27813509538965211E+10 0.27817352566849027E+10 0.20620805187999986E-01 0.10154000000000000E+06
WSHIST: writing time sample 25 to h-file 1 DATE=2004/12/16 NCSEC= 45000
nstep, te 26 0.27812738232045889E+10 0.27816593603761702E+10 0.20687039356103158E-01 0.10154000000000000E+06
WSHIST: writing time sample 26 to h-file 1 DATE=2004/12/16 NCSEC= 46800
nstep, te 27 0.27812363771499887E+10 0.27816232199299183E+10 0.20757095302137107E-01 0.10154000000000000E+06
WSHIST: writing time sample 27 to h-file 1 DATE=2004/12/16 NCSEC= 48600
nstep, te 28 0.27812303065071812E+10 0.27816184578609333E+10 0.20827310368703479E-01 0.10154000000000000E+06
WSHIST: writing time sample 28 to h-file 1 DATE=2004/12/16 NCSEC= 50400
nstep, te 29 0.27812571523366833E+10 0.27816462141652193E+10 0.20876164354974049E-01 0.10154000000000000E+06
WSHIST: writing time sample 29 to h-file 1 DATE=2004/12/16 NCSEC= 52200
nstep, te 30 0.27813033141426187E+10 0.27816929816372681E+10 0.20908663007886529E-01 0.10154000000000000E+06
WSHIST: writing time sample 30 to h-file 1 DATE=2004/12/16 NCSEC= 54000
nstep, te 31 0.27813661370202422E+10 0.27817563738223581E+10 0.20939210739294761E-01 0.10154000000000000E+06
WSHIST: writing time sample 31 to h-file 1 DATE=2004/12/16 NCSEC= 55800
nstep, te 32 0.27814327205211225E+10 0.27818237758611598E+10 0.20983131604630795E-01 0.10154000000000000E+06
WSHIST: writing time sample 32 to h-file 1 DATE=2004/12/16 NCSEC= 57600
nstep, te 33 0.27815003672088976E+10 0.27818923576833663E+10 0.21033308770960806E-01 0.10154000000000000E+06
WSHIST: writing time sample 33 to h-file 1 DATE=2004/12/16 NCSEC= 59400
nstep, te 34 0.27815569131501918E+10 0.27819498123586049E+10 0.21082069347782128E-01 0.10154000000000000E+06
WSHIST: writing time sample 34 to h-file 1 DATE=2004/12/16 NCSEC= 61200
nstep, te 35 0.27815986218519049E+10 0.27819923297788587E+10 0.21125463327693848E-01 0.10154000000000000E+06
WSHIST: writing time sample 35 to h-file 1 DATE=2004/12/16 NCSEC= 63000
nstep, te 36 0.27816215498496871E+10 0.27820148124797072E+10 0.21101569716725523E-01 0.10154000000000000E+06
WSHIST: writing time sample 36 to h-file 1 DATE=2004/12/16 NCSEC= 64800
nstep, te 37 0.27816164201795225E+10 0.27820091288201227E+10 0.21071843916522916E-01 0.10154000000000000E+06
WSHIST: writing time sample 37 to h-file 1 DATE=2004/12/16 NCSEC= 66600
nstep, te 38 0.27815754692832098E+10 0.27819676845692081E+10 0.21045371641428574E-01 0.10154000000000000E+06
WSHIST: writing time sample 38 to h-file 1 DATE=2004/12/16 NCSEC= 68400
nstep, te 39 0.27814972614416723E+10 0.27818888174476070E+10 0.21009996187053962E-01 0.10154000000000000E+06
WSHIST: writing time sample 39 to h-file 1 DATE=2004/12/16 NCSEC= 70200
nstep, te 40 0.27813684036318140E+10 0.27817593637058215E+10 0.20978019848219842E-01 0.10154000000000000E+06
WSHIST: writing time sample 40 to h-file 1 DATE=2004/12/16 NCSEC= 72000
nstep, te 41 0.27811812147895517E+10 0.27815711826386070E+10 0.20924779335631877E-01 0.10154000000000000E+06
WSHIST: writing time sample 41 to h-file 1 DATE=2004/12/16 NCSEC= 73800
nstep, te 42 0.27809307980870481E+10 0.27813198040743785E+10 0.20873168044104360E-01 0.10154000000000000E+06
WSHIST: writing time sample 42 to h-file 1 DATE=2004/12/16 NCSEC= 75600
nstep, te 43 0.27806437924715862E+10 0.27810318416135116E+10 0.20821825916776251E-01 0.10154000000000000E+06
WSHIST: writing time sample 43 to h-file 1 DATE=2004/12/16 NCSEC= 77400
nstep, te 44 0.27802493149765210E+10 0.27806364993559923E+10 0.20775424749161497E-01 0.10154000000000000E+06
WSHIST: writing time sample 44 to h-file 1 DATE=2004/12/16 NCSEC= 79200
nstep, te 45 0.27798455447012706E+10 0.27802318237233477E+10 0.20726845350270549E-01 0.10154000000000000E+06
WSHIST: writing time sample 45 to h-file 1 DATE=2004/12/16 NCSEC= 81000
nstep, te 46 0.27794151343220115E+10 0.27798006055781841E+10 0.20683502486632123E-01 0.10154000000000000E+06
WSHIST: writing time sample 46 to h-file 1 DATE=2004/12/16 NCSEC= 82800
nstep, te 47 0.27789880837436595E+10 0.27793724730161486E+10 0.20625445726623212E-01 0.10154000000000000E+06
WSHIST: writing time sample 47 to h-file 1 DATE=2004/12/16 NCSEC= 84600
nstep, te 48 0.27785662789928012E+10 0.27789504690660086E+10 0.20614757150569242E-01 0.10154000000000000E+06
chem_surfvals_set: ncdate= 20041217 co2vmr= 3.7900000000000000E-004
WSHIST: writing time sample 48 to h-file 1 DATE=2004/12/17 NCSEC= 0
WRAPUP: nf_close( 1 )=case_scripts.eam.h0.2004-12-16-00000.nc
Primary history file
Output at NSTEP = 48
Number of time samples on this file = 49
Model Day = 1.00
---------------------------------------
nstep, te 49 0.27781503572689290E+10 0.27785346731751404E+10 0.20621509060625855E-01 0.10154000000000000E+06
stepon: HOMME finalization...
stepon: End of finalization
Number of completed timesteps: 48
Time step 49 partially done to provide convectively adjusted and time filtered values for history tape.
------------------------------------------------------------
Total run time (sec) : 7.1913609001785517
Time Step Loop run time(sec) : 5.6607731617987156
SYPD : 41.787577993115704
******* END OF MODEL RUN *******
[Pipeline] sh
+ gzip -d projects/scratch/SCM_runs/test_RICO/run/e3sm.log.220425-135704.gz
+ cat projects/scratch/SCM_runs/test_RICO/run/e3sm.log.220425-135704
[0] User-specified PIO rearranger comm max pend req (comp2io), 0 (value will be reset as requested)
[0] Resetting PIO rearranger comm max pend req (comp2io) to 64
[0] User-specified PIO rearranger comm max pend req (io2comp), 0 (value will be reset as requested)
[0] Resetting PIO rearranger comm max pend req (io2comp) to 64
[0] PIO rearranger options:
[0] comm type = p2p
[0] comm fcd = 2denable
[0] max pend req (comp2io) = 64
[0] enable_hs (comp2io) = T
[0] enable_isend (comp2io) = F
[0] max pend req (io2comp) = 64
[0] enable_hs (io2comp) = F
[0] enable_isend (io2comp) = T
[0] 1 pes participating in computation of coupled model
[0] --------------------------------------------------------------
[0] GLOBAL communicator : 1 nodes, 1 MPI tasks
[0] COMMUNICATOR NODE # [NODE NAME] : (# OF MPI TASKS) TASK # LIST
[0] GLOBAL NODE 0 [ nelson.math.uwm.edu ] : ( 1 MPI TASKS )[0] 0
[0] --------------------------------------------------------------
[0] (seq_comm_setcomm) init ID ( 1 GLOBAL ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_setcomm) init ID ( 2 CPL ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_setcomm) init ID ( 5 ATM ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 6 CPLATM ) join IDs = 2 5 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 3 ALLATMID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 4 CPLALLATMID ) join IDs = 2 3 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 9 LND ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 10 CPLLND ) join IDs = 2 9 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 7 ALLLNDID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 8 CPLALLLNDID ) join IDs = 2 7 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 13 ICE ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 14 CPLICE ) join IDs = 2 13 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 11 ALLICEID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 12 CPLALLICEID ) join IDs = 2 11 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 17 OCN ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 18 CPLOCN ) join IDs = 2 17 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 15 ALLOCNID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 16 CPLALLOCNID ) join IDs = 2 15 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 21 ROF ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 22 CPLROF ) join IDs = 2 21 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 19 ALLROFID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 20 CPLALLROFID ) join IDs = 2 19 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 25 GLC ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 26 CPLGLC ) join IDs = 2 25 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 23 ALLGLCID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 24 CPLALLGLCID ) join IDs = 2 23 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 29 WAV ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 30 CPLWAV ) join IDs = 2 29 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 27 ALLWAVID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 28 CPLALLWAVID ) join IDs = 2 27 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 33 ESP ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 34 CPLESP ) join IDs = 2 33 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 31 ALLESPID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 32 CPLALLESPID ) join IDs = 2 31 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_setcomm) init ID ( 37 IAC ) pelist = 0 0 1 ( npes = 1) ( nthreads = 1)( suffix =)
[0] (seq_comm_joincomm) init ID ( 38 CPLIAC ) join IDs = 2 37 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_jcommarr) init ID ( 35 ALLIACID ) join multiple comp IDs ( npes = 1) ( nthreads = 1)
[0] (seq_comm_joincomm) init ID ( 36 CPLALLIACID ) join IDs = 2 35 ( npes = 1) ( nthreads = 1)
[0] (seq_comm_printcomms) 1 0 1 1 GLOBAL:
[0] (seq_comm_printcomms) 2 0 1 1 CPL:
[0] (seq_comm_printcomms) 3 0 1 1 ALLATMID:
[0] (seq_comm_printcomms) 4 0 1 1 CPLALLATMID:
[0] (seq_comm_printcomms) 5 0 1 1 ATM:
[0] (seq_comm_printcomms) 6 0 1 1 CPLATM:
[0] (seq_comm_printcomms) 7 0 1 1 ALLLNDID:
[0] (seq_comm_printcomms) 8 0 1 1 CPLALLLNDID:
[0] (seq_comm_printcomms) 9 0 1 1 LND:
[0] (seq_comm_printcomms) 10 0 1 1 CPLLND:
[0] (seq_comm_printcomms) 11 0 1 1 ALLICEID:
[0] (seq_comm_printcomms) 12 0 1 1 CPLALLICEID:
[0] (seq_comm_printcomms) 13 0 1 1 ICE:
[0] (seq_comm_printcomms) 14 0 1 1 CPLICE:
[0] (seq_comm_printcomms) 15 0 1 1 ALLOCNID:
[0] (seq_comm_printcomms) 16 0 1 1 CPLALLOCNID:
[0] (seq_comm_printcomms) 17 0 1 1 OCN:
[0] (seq_comm_printcomms) 18 0 1 1 CPLOCN:
[0] (seq_comm_printcomms) 19 0 1 1 ALLROFID:
[0] (seq_comm_printcomms) 20 0 1 1 CPLALLROFID:
[0] (seq_comm_printcomms) 21 0 1 1 ROF:
[0] (seq_comm_printcomms) 22 0 1 1 CPLROF:
[0] (seq_comm_printcomms) 23 0 1 1 ALLGLCID:
[0] (seq_comm_printcomms) 24 0 1 1 CPLALLGLCID:
[0] (seq_comm_printcomms) 25 0 1 1 GLC:
[0] (seq_comm_printcomms) 26 0 1 1 CPLGLC:
[0] (seq_comm_printcomms) 27 0 1 1 ALLWAVID:
[0] (seq_comm_printcomms) 28 0 1 1 CPLALLWAVID:
[0] (seq_comm_printcomms) 29 0 1 1 WAV:
[0] (seq_comm_printcomms) 30 0 1 1 CPLWAV:
[0] (seq_comm_printcomms) 31 0 1 1 ALLESPID:
[0] (seq_comm_printcomms) 32 0 1 1 CPLALLESPID:
[0] (seq_comm_printcomms) 33 0 1 1 ESP:
[0] (seq_comm_printcomms) 34 0 1 1 CPLESP:
[0] (seq_comm_printcomms) 35 0 1 1 ALLIACID:
[0] (seq_comm_printcomms) 36 0 1 1 CPLALLIACID:
[0] (seq_comm_printcomms) 37 0 1 1 IAC:
[0] (seq_comm_printcomms) 38 0 1 1 CPLIAC:
[0] (t_initf) Read in prof_inparm namelist from: drv_in
[0] (t_initf) Using profile_disable= F
[0] (t_initf) profile_timer= 4
[0] (t_initf) profile_depth_limit= 20
[0] (t_initf) profile_detail_limit= 12
[0] (t_initf) profile_barrier= F
[0] (t_initf) profile_outpe_num= 1
[0] (t_initf) profile_outpe_stride= 0
[0] (t_initf) profile_single_file= F
[0] (t_initf) profile_global_stats= T
[0] (t_initf) profile_ovhd_measurement= F
[0] (t_initf) profile_add_detail= F
[0] (t_initf) profile_papi_enable= F
[0]
[0] getMetaSchedule: tmpP: 1 1
[0] initializing elements...
[0] creating sorted ghost cell neigbor map...
[0] checking ghost cell neighbor buffer sorting...
[0] passed.
[0]
[0] l, cnst_name(l), cnst_name_cw(l)
[0] 1 Q
[0] 2 CLDLIQ
[0] 3 CLDICE
[0] 4 NUMLIQ
[0] 5 NUMICE
[0] 6 RAINQM
[0] 7 SNOWQM
[0] 8 NUMRAI
[0] 9 NUMSNO
[0] 10 H2O2
[0] 11 H2SO4
[0] 12 SO2
[0] 13 DMS
[0] 14 SOAG
[0] 15 so4_a1 so4_c1
[0] 16 pom_a1 pom_c1
[0] 17 soa_a1 soa_c1
[0] 18 bc_a1 bc_c1
[0] 19 dst_a1 dst_c1
[0] 20 ncl_a1 ncl_c1
[0] 21 num_a1 num_c1
[0] 22 so4_a2 so4_c2
[0] 23 soa_a2 soa_c2
[0] 24 ncl_a2 ncl_c2
[0] 25 num_a2 num_c2
[0] 26 dst_a3 dst_c3
[0] 27 ncl_a3 ncl_c3
[0] 28 so4_a3 so4_c3
[0] 29 num_a3 num_c3
[0] ma_convproc_init - convproc_do_aer = T
[0] ma_convproc_init - convproc_do_gas = F
[0] ma_convproc_init - use_cwaer_for_activate_maxsat = F
[0] ma_convproc_init - apply_convproc_tend_to_ptend = T
[0] ma_convproc_init - convproc_method_activate = 2
[0] ma_convproc_init - method1_activate_nlayers = 2
[0] ma_convproc_init - method2_activate_smaxmax = 3.0000E-03
[0] ma_convproc_init - method_reduce_actfrac = 0
[0] ma_convproc_init - factor_reduce_actfrac = 5.0000E-01
[0] ma_convproc_init - npass_calc_updraft = 1
[0] Invalid configuration: l_min_xp2_from_corr_wx = F and l_enable_relaxed_clipping = F
[0] They must have opposite values
[0] Fatal error in setup_clubb_core
[0] When the l_diag_Lscale_from_tau flag is enabled, C6rt must have a value of 1.
[0] C6rt = 2.0000000000000000
[0] Warning in setup_clubb_core
[0] When the l_diag_Lscale_from_tau flag is enabled, C6rtb must have a value of 1.
[0] C6rtb = 2.0000000000000000
[0] Warning in setup_clubb_core
[0] When the l_diag_Lscale_from_tau flag is enabled, C6thl must have a value of 1.
[0] C6thl = 2.0000000000000000
[0] Warning in setup_clubb_core
[0] When the l_diag_Lscale_from_tau flag is enabled, C6thlb must have a value of 1.
[0] C6thlb = 2.0000000000000000
[0] Warning in setup_clubb_core
[0] Reading setup_nml
[0] Reading grid_nml
[0] Reading ice_nml
[0] Reading tracer_nml
[0] CalcWorkPerBlock: Total blocks: 1 Ice blocks: 1 IceFree blocks: 0 Land blocks: 0
[Pipeline] }
[Pipeline] // script
[Pipeline] }
[Pipeline] // stage
[Pipeline] }
[Pipeline] // withEnv
[Pipeline] }
[Pipeline] // node
[Pipeline] }
[Pipeline] // load
[Pipeline] }
[Pipeline] // stage
[Pipeline] }
[Pipeline] // node
[Pipeline] End of Pipeline
Finished: SUCCESS
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