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            1 I  PBL height
   54 PE                               1                   1 A  Stratiform Precipitation Efficiency  (precip/cmeliq)
   55 PEFRAC                           1                   1 A  Fraction of timesteps precip efficiency reported
   56 PHIS                             m2/s2               1 I  Surface geopotential
   57 PM25_SRF                         kg/m3               1 I  surface PM2.5 mass concentration
   58 PRECC                            m/s                 1 A  Convective precipitation rate (liq + ice)
   59 PRECL                            m/s                 1 A  Large-scale (stable) precipitation rate (liq + ice)
   60 PRECSC                           m/s                 1 I  Convective snow rate (water equivalent)
   61 PRECSL                           m/s                 1 I  Large-scale (stable) snow rate (water equivalent)
   62 PRECT                            m/s                 1 A  Total (convective and large-scale) precipitation rate (liq + ice)
   63 PS                               Pa                  1 A  Surface pressure
   64 PSDRY                            Pa                  1 I  Dry surface pressure
   65 PSL                              Pa                  1 I  Sea level pressure
   66 QFLX                             kg/m2/s             1 I  Surface water flux
   67 QREFHT                           kg/kg               1 I  Reference height humidity
   68 RACAU                            kg/kg/s             1 A  Accretion/autoconversion ratio from vertical average
   69 SFDMS                            kg/m2/s             1 I  DMS surface flux
   70 SFSO2                            kg/m2/s             1 I  SO2 surface flux
   71 SFSOAE                           kg/m2/s             1 I  SOAE surface flux
   72 SFbc_a4                          kg/m2/s             1 I  bc_a4 surface flux
   73 SFdst_a1                         kg/m2/s             1 I  dst_a1 surface flux
   74 SFdst_a2                         kg/m2/s             1 I  dst_a2 surface flux
   75 SFdst_a3                         kg/m2/s             1 I  dst_a3 surface flux
   76 SFncl_a1                         kg/m2/s             1 I  ncl_a1 surface flux
   77 SFncl_a2                         kg/m2/s             1 I  ncl_a2 surface flux
   78 SFncl_a3                         kg/m2/s             1 I  ncl_a3 surface flux
   79 SFnum_a1                          1/m2/s             1 I  num_a1 surface flux
   80 SFnum_a2                          1/m2/s             1 I  num_a2 surface flux
   81 SFnum_a3                          1/m2/s             1 I  num_a3 surface flux
   82 SFnum_a4                          1/m2/s             1 I  num_a4 surface flux
   83 SFpom_a4                         kg/m2/s             1 I  pom_a4 surface flux
   84 SFso4_a1                         kg/m2/s             1 I  so4_a1 surface flux
   85 SFso4_a2                         kg/m2/s             1 I  so4_a2 surface flux
   86 SHFLX                            W/m2                1 I  Surface sensible heat flux
   87 SNOWHICE                         m                   1 I  Snow depth over ice
   88 SNOWHLND                         m                   1 I  Water equivalent snow depth
   89 SO2_CLXF                         molec/cm2/s         1 I  vertically intergrated external forcing for SO2
   90 SO2_CMXF                         kg/m2/s             1 I  vertically intergrated external forcing for SO2
   91 SO2_SRF                          mol/mol             1 I  SO2 in bottom layer
   92 SOAE_SRF                         mol/mol             1 I  SOAE in bottom layer
   93 SOAG_SRF                         mol/mol             1 I  SOAG in bottom layer
   94 SOLIN                            W/m2                1 I  Solar insolation
   95 SWCF                             W/m2                1 A  Shortwave cloud forcing
   96 TAUBLJX                          N/m2                1 I  Zonal      integrated drag from Beljaars SGO
   97 TAUBLJY                          N/m2                1 I  Meridional integrated drag from Beljaars SGO
   98 TAUGWX                           N m-2               1 I  Zonal gravity wave surface stress
   99 TAUGWY                           N m-2               1 I  Meridional gravity wave surface stress
  100 TAUX                             N/m2                1 I  Zonal surface stress
  101 TAUY                             N/m2                1 I  Meridional surface stress
  102 TFIX                             K/s                 1 I  T fixer (T equivalent of Energy correction)
  103 TGCLDCWP                         kg/m2               1 I  Total grid-box cloud water path (liquid and ice)
  104 TGCLDIWP                         kg/m2               1 I  Total grid-box cloud ice water path
  105 TGCLDLWP                         kg/m2               1 I  Total grid-box cloud liquid water path
  106 TMQ                              kg/m2               1 A  Total (vertically integrated) precipitable water
  107 TREFHT                           K                   1 I  Reference height temperature
  108 TS                               K                   1 I  Surface temperature (radiative)
  109 TSMN                             K                   1 I  Minimum surface temperature over output period
  110 TSMX                             K                   1 I  Maximum surface temperature over output period
  111 U10                              m/s                 1 I  10m wind speed
  112 VPRAO                            kg/kg/s             1 A  Vertical average of accretion rate
  113 VPRCO                            kg/kg/s             1 A  Vertical average of autoconversion rate
  114 WD_DMS                           kg/m2/s             1 I  vertical integrated wet deposition flux
  115 WD_H2O2                          kg/m2/s             1 I  vertical integrated wet deposition flux
  116 WD_H2SO4                         kg/m2/s             1 I  vertical integrated wet deposition flux
  117 WD_SO2                           kg/m2/s             1 I  vertical integrated wet deposition flux
  118 WD_SOAG                          kg/m2/s             1 I  vertical integrated wet deposition flux
  119 bc_a1DDF                         kg/m2/s             1 I  bc_a1 dry deposition flux at bottom (grav + turb)
  120 bc_a1SFWET                       kg/m2/s             1 I  Wet deposition flux at surface
  121 bc_a1_CLXF                       molec/cm2/s         1 I  vertically intergrated external forcing for bc_a1
  122 bc_a1_CMXF                       kg/m2/s             1 I  vertically intergrated external forcing for bc_a1
  123 bc_a1_SRF                        kg/kg               1 I  bc_a1 in bottom layer
  124 bc_a4DDF                         kg/m2/s             1 I  bc_a4 dry deposition flux at bottom (grav + turb)
  125 bc_a4SFWET                       kg/m2/s             1 I  Wet deposition flux at surface
  126 bc_a4_CLXF                       molec/cm2/s         1 I  vertically intergrated external forcing for bc_a4
  127 bc_a4_CMXF                       kg/m2/s             1 I  vertically intergrated external forcing for bc_a4
  128 bc_a4_SRF                        kg/kg               1 I  bc_a4 in bottom layer
  129 bc_c1SFWET                       kg/m2/s             1 I  Wet deposition flux at surface
  130 bc_c4SFWET                       kg/m2/s             1 I  Wet deposition flux at surface
  131 dst_a1DDF                        kg/m2/s             1 I  dst_a1 dry deposition flux at bottom (grav + turb)
  132 dst_a1SF                         kg/m2/s             1 I  dst_a1 dust surface emission
  133 dst_a1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  134 dst_a1_SRF                       kg/kg               1 I  dst_a1 in bottom layer
  135 dst_a2DDF                        kg/m2/s             1 I  dst_a2 dry deposition flux at bottom (grav + turb)
  136 dst_a2SF                         kg/m2/s             1 I  dst_a2 dust surface emission
  137 dst_a2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  138 dst_a2_SRF                       kg/kg               1 I  dst_a2 in bottom layer
  139 dst_a3DDF                        kg/m2/s             1 I  dst_a3 dry deposition flux at bottom (grav + turb)
  140 dst_a3SF                         kg/m2/s             1 I  dst_a3 dust surface emission
  141 dst_a3SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  142 dst_a3_SRF                       kg/kg               1 I  dst_a3 in bottom layer
  143 dst_c1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  144 dst_c2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  145 dst_c3SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  146 ncl_a1DDF                        kg/m2/s             1 I  ncl_a1 dry deposition flux at bottom (grav + turb)
  147 ncl_a1SF                         kg/m2/s             1 I  ncl_a1 seasalt surface emission
  148 ncl_a1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  149 ncl_a1_SRF                       kg/kg               1 I  ncl_a1 in bottom layer
  150 ncl_a2DDF                        kg/m2/s             1 I  ncl_a2 dry deposition flux at bottom (grav + turb)
  151 ncl_a2SF                         kg/m2/s             1 I  ncl_a2 seasalt surface emission
  152 ncl_a2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  153 ncl_a2_SRF                       kg/kg               1 I  ncl_a2 in bottom layer
  154 ncl_a3DDF                        kg/m2/s             1 I  ncl_a3 dry deposition flux at bottom (grav + turb)
  155 ncl_a3SF                         kg/m2/s             1 I  ncl_a3 seasalt surface emission
  156 ncl_a3SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  157 ncl_a3_SRF                       kg/kg               1 I  ncl_a3 in bottom layer
  158 ncl_c1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  159 ncl_c2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  160 ncl_c3SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  161 num_a1DDF                         1/m2/s             1 I  num_a1 dry deposition flux at bottom (grav + turb)
  162 num_a1SF                         kg/m2/s             1 I  num_a1 dust surface emission
  163 num_a1SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  164 num_a1_CLXF                      molec/cm2/s         1 I  vertically intergrated external forcing for num_a1
  165 num_a1_CMXF                      kg/m2/s             1 I  vertically intergrated external forcing for num_a1
  166 num_a1_SRF                        1/kg               1 I  num_a1 in bottom layer
  167 num_a2DDF                         1/m2/s             1 I  num_a2 dry deposition flux at bottom (grav + turb)
  168 num_a2SF                         kg/m2/s             1 I  num_a2 dust surface emission
  169 num_a2SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  170 num_a2_CLXF                      molec/cm2/s         1 I  vertically intergrated external forcing for num_a2
  171 num_a2_CMXF                      kg/m2/s             1 I  vertically intergrated external forcing for num_a2
  172 num_a2_SRF                        1/kg               1 I  num_a2 in bottom layer
  173 num_a3DDF                         1/m2/s             1 I  num_a3 dry deposition flux at bottom (grav + turb)
  174 num_a3SF                         kg/m2/s             1 I  num_a3 dust surface emission
  175 num_a3SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  176 num_a3_SRF                        1/kg               1 I  num_a3 in bottom layer
  177 num_a4DDF                         1/m2/s             1 I  num_a4 dry deposition flux at bottom (grav + turb)
  178 num_a4SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  179 num_a4_CLXF                      molec/cm2/s         1 I  vertically intergrated external forcing for num_a4
  180 num_a4_CMXF                      kg/m2/s             1 I  vertically intergrated external forcing for num_a4
  181 num_a4_SRF                        1/kg               1 I  num_a4 in bottom layer
  182 num_c1SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  183 num_c2SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  184 num_c3SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  185 num_c4SFWET                       1/m2/s             1 I  Wet deposition flux at surface
  186 pom_a1DDF                        kg/m2/s             1 I  pom_a1 dry deposition flux at bottom (grav + turb)
  187 pom_a1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  188 pom_a1_CLXF                      molec/cm2/s         1 I  vertically intergrated external forcing for pom_a1
  189 pom_a1_CMXF                      kg/m2/s             1 I  vertically intergrated external forcing for pom_a1
  190 pom_a1_SRF                       kg/kg               1 I  pom_a1 in bottom layer
  191 pom_a4DDF                        kg/m2/s             1 I  pom_a4 dry deposition flux at bottom (grav + turb)
  192 pom_a4SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  193 pom_a4_CLXF                      molec/cm2/s         1 I  vertically intergrated external forcing for pom_a4
  194 pom_a4_CMXF                      kg/m2/s             1 I  vertically intergrated external forcing for pom_a4
  195 pom_a4_SRF                       kg/kg               1 I  pom_a4 in bottom layer
  196 pom_c1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  197 pom_c4SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  198 so4_a1DDF                        kg/m2/s             1 I  so4_a1 dry deposition flux at bottom (grav + turb)
  199 so4_a1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  200 so4_a1_CLXF                      molec/cm2/s         1 I  vertically intergrated external forcing for so4_a1
  201 so4_a1_CMXF                      kg/m2/s             1 I  vertically intergrated external forcing for so4_a1
  202 so4_a1_SRF                       kg/kg               1 I  so4_a1 in bottom layer
  203 so4_a2DDF                        kg/m2/s             1 I  so4_a2 dry deposition flux at bottom (grav + turb)
  204 so4_a2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  205 so4_a2_CLXF                      molec/cm2/s         1 I  vertically intergrated external forcing for so4_a2
  206 so4_a2_CMXF                      kg/m2/s             1 I  vertically intergrated external forcing for so4_a2
  207 so4_a2_SRF                       kg/kg               1 I  so4_a2 in bottom layer
  208 so4_a3DDF                        kg/m2/s             1 I  so4_a3 dry deposition flux at bottom (grav + turb)
  209 so4_a3SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  210 so4_a3_SRF                       kg/kg               1 I  so4_a3 in bottom layer
  211 so4_c1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  212 so4_c2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  213 so4_c3SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  214 soa_a1DDF                        kg/m2/s             1 I  soa_a1 dry deposition flux at bottom (grav + turb)
  215 soa_a1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  216 soa_a1_SRF                       kg/kg               1 I  soa_a1 in bottom layer
  217 soa_a2DDF                        kg/m2/s             1 I  soa_a2 dry deposition flux at bottom (grav + turb)
  218 soa_a2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  219 soa_a2_SRF                       kg/kg               1 I  soa_a2 in bottom layer
  220 soa_c1SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  221 soa_c2SFWET                      kg/m2/s             1 I  Wet deposition flux at surface
  222 ADRAIN                           m                  32 A  Average rain effective Diameter
  223 ADSNOW                           m                  32 A  Average snow effective Diameter
  224 ANRAIN                           m-3                32 I  Average rain number conc
  225 ANSNOW                           m-3                32 I  Average snow number conc
  226 AQRAIN                           kg/kg              32 I  Average rain mixing ratio
  227 AQSNOW                           kg/kg              32 I  Average snow mixing ratio
  228 AREI                             Micron             32 I  Average ice effective radius
  229 AREL                             Micron             32 I  Average droplet effective radius
  230 AWNC                             m-3                32 I  Average cloud water number conc
  231 AWNI                             m-3                32 I  Average cloud ice number conc
  232 BERGO                            kg/kg/s            32 A  Conversion of cloud water to cloud ice from bergeron
  233 BERGSO                           kg/kg/s            32 A  Conversion of cloud water to snow from bergeron
  234 CCN3                             #/cm3              32 I  CCN concentration at S=0.1%
  235 CCN4                             #/cm3              32 I  CCN concentration at S=0.2%
  236 CFC11                            mol/mol            32 I  CFC11 concentration
  237 CFC12                            mol/mol            32 I  CFC12 concentration
  238 CH4                              mol/mol            32 I  CH4 concentration
  239 CLDICE                           kg/kg              32 A  Grid box averaged cloud ice amount
  240 CLDICEAP                         kg/kg              32 I  CLDICE after physics
  241 CLDICEBP                         kg/kg              32 I  CLDICE before physics
  242 CLDICETGW                        kg/kg/s            32 I  CLDICE tendency - gravity wave drag
  243 CLDLIQ                           kg/kg              32 A  Grid box averaged cloud liquid amount
  244 CLDLIQAP                         kg/kg              32 I  CLDLIQ after physics
  245 CLDLIQBP                         kg/kg              32 I  CLDLIQ before physics
  246 CLDLIQTGW                        kg/kg/s            32 I  CLDLIQ tendency - gravity wave drag
  247 CLOUD                            fraction           32 I  Cloud fraction
  248 CLOUDCOVER_CLUBB                 fraction           32 I  Cloud Cover
  249 CLOUDFRAC_CLUBB                  fraction           32 I  Cloud Fraction
  250 CME                              kg/kg/s            32 A  Rate of cond-evap within the cloud
  251 CMEIOUT                          kg/kg/s            32 A  Rate of deposition/sublimation of cloud ice
  252 CO2                              mol/mol            32 I  CO2 concentration
  253 CONCLD                           fraction           32 I  Convective cloud cover
  254 CT_H2O                           kg/kg/s            32 I  H2O source/sink
  255 DCCLDICE                         kg/kg/s            32 I  CLDICE tendency due to moist processes
  256 DCCLDLIQ                         kg/kg/s            32 I  CLDLIQ tendency due to moist processes
  257 DCQ                              kg/kg/s            32 I  Q tendency due to moist processes
  258 DMS                              mol/mol            32 I  DMS concentration
  259 DPDLFICE                         kg/kg/s            32 I  Detrained ice from deep convection
  260 DPDLFLIQ                         kg/kg/s            32 I  Detrained liquid water from deep convection
  261 DPDLFT                           K/s                32 I  T-tendency due to deep convective detrainment
  262 DTCOND                           K/s                32 I  T tendency - moist processes
  263 DTCORE                           K/s                32 I  T tendency due to dynamical core
  264 DTV                              K/s                32 I  T vertical diffusion
  265 EVAPPREC                         kg/kg/s            32 A  Rate of evaporation of falling precip
  266 EVAPQZM                          kg/kg/s            32 I  Q tendency - Evaporation from Zhang-McFarlane moist convection
  267 EVAPSNOW                         kg/kg/s            32 A  Rate of evaporation of falling snow
  268 EVAPTZM                          K/s                32 I  T tendency - Evaporation/snow prod from Zhang convection
  269 FICE                             fraction           32 I  Fractional ice content within cloud
  270 FREQI                            fraction           32 I  Fractional occurrence of ice
  271 FREQL                            fraction           32 I  Fractional occurrence of liquid
  272 FREQR                            fraction           32 A  Fractional occurrence of rain
  273 FREQS                            fraction           32 A  Fractional occurrence of snow
  274 FRZRDT                           W/kg               32 A  Latent heating rate due to homogeneous freezing of rain
  275 GRAUQM                           kg/kg              32 I  Grid box averaged graupel/hail amount
  276 GRAUQMAP                         kg/kg              32 I  GRAUQM after physics
  277 GRAUQMBP                         kg/kg              32 I  GRAUQM before physics
  278 H2O                              mol/mol            32 I  water vapor concentration
  279 H2O2                             mol/mol            32 I  H2O2 concentration
  280 H2SO4                            mol/mol            32 I  H2SO4 concentration
  281 HOMOO                            kg/kg/s            32 A  Homogeneous freezing of cloud water
  282 HR                               K/s                32 I  Heating rate needed for d(theta)/dt computation
  283 ICIMR                            kg/kg              32 I  Prognostic in-cloud ice mixing ratio
  284 ICIMRST                          kg/kg              32 A  Prognostic in-stratus ice mixing ratio
  285 ICWMR                            kg/kg              32 I  Prognostic in-cloud water mixing ratio
  286 ICWMRST                          kg/kg              32 A  Prognostic in-stratus water mixing ratio
  287 INEGCLPTEND                      kg/kg/s            32 I  Cloud ice tendency due to clipping neg values after microp
  288 IWC                              kg/m3              32 I  Grid box average ice water content
  289 LNEGCLPTEND                      kg/kg/s            32 I  Cloud liq tendency due to clipping neg values after microp
  290 MELTGTOT                         kg/kg/s            32 I  Melting of graupel
  291 MELTO                            kg/kg/s            32 A  Melting of cloud ice
  292 MELTSDT                          W/kg               32 A  Latent heating rate due to melting of snow
  293 MELTSTOT                         kg/kg/s            32 I  Melting of snow
  294 MNUCCCO                          kg/kg/s            32 A  Immersion freezing of cloud water
  295 MNUCCDO                          kg/kg/s            32 A  Homogeneous and heterogeneous nucleation from vapor
  296 MNUCCDOhet                       kg/kg/s            32 A  Heterogeneous nucleation from vapor
  297 MNUCCRIO                         kg/kg/s            32 I  Heterogeneous freezing of rain to ice
  298 MNUCCRO                          kg/kg/s            32 I  Heterogeneous freezing of rain to snow
  299 MNUCCTO                          kg/kg/s            32 A  Contact freezing of cloud water
  300 MNUDEPO                          kg/kg/s            32 I  Deposition Nucleation
  301 MPDI2P                           kg/kg/s            32 I  Ice <--> Precip tendency - Morrison microphysics
  302 MPDI2V                           kg/kg/s            32 I  Ice <--> Vapor tendency - Morrison microphysics
  303 MPDI2W                           kg/kg/s            32 I  Ice <--> Water tendency - Morrison microphysics
  304 MPDICE                           kg/kg/s            32 A  CLDICE tendency - Morrison microphysics
  305 MPDLIQ                           kg/kg/s            32 A  CLDLIQ tendency - Morrison microphysics
  306 MPDQ                             kg/kg/s            32 A  Q tendency - Morrison microphysics
  307 MPDT                             W/kg               32 A  Heating tendency - Morrison microphysics
  308 MPDW2I                           kg/kg/s            32 I  Water <--> Ice tendency - Morrison microphysics
  309 MPDW2P                           kg/kg/s            32 I  Water <--> Precip tendency - Morrison microphysics
  310 MPDW2V                           kg/kg/s            32 I  Water <--> Vapor tendency - Morrison microphysics
  311 MSACWIO                          kg/kg/s            32 A  Conversion of cloud water from rime-splintering
  312 N2O                              mol/mol            32 I  N2O concentration
  313 NCAL                             1/m3               32 I  Number Concentation Activated for Liquid
  314 NCSEDTEN                         #/kg/s             32 I  Number Tendency due to cloud liquid sedimentation
  315 NGRACSO                          #/kg/s             32 I  Change N conversion to graupel due to collection rain by snow
  316 NGSEDTEN                         #/kg/s             32 I  Number Tendency due to graupel sedimentation
  317 NHOMO                            #/kg/s             32 I  Number Tendency due to Homogeneous freezing of cloud water
  318 NISEDTEN                         #/kg/s             32 I  Number Tendency due to cloud ice sedimentation
  319 NMELTG                           #/kg/s             32 I  Number Tendency due to Melting of graupel
  320 NMELTO                           #/kg/s             32 I  Number Tendency due to Melting of cloud ice
  321 NMELTS                           #/kg/s             32 I  Number Tendency due to Melting of snow
  322 NMULTGO                          #/kg/s             32 I  Ice mult due to acc droplets by graupel
  323 NMULTRGO                         #/kg/s             32 I  Ice mult due to acc rain by graupel
  324 NNUCCCO                          #/kg/s             32 I  Number Tendency due to Immersion freezing of cloud water
  325 NNUCCDO                          #/kg/s             32 I  Number Tendency due to Ice nucleation
  326 NNUCCRIO                         #/kg/s             32 I  Number Tendency due to Heterogeneous freezing of rain to ice
  327 NNUCCRO                          #/kg/s             32 I  Number Tendency due to heterogeneous freezing of rain to snow
  328 NNUCCTO                          #/kg/s             32 I  Number Tendency due to Contact freezing of cloud water
  329 NNUDEPO                          #/kg/s             32 I  Number Tendency due to Deposition Nucleation
  330 NPRACGO                          #/kg/s             32 I  Change N collection rain by graupel
  331 NPRACSO                          #/kg/s             32 I  Number Tendency due to Accretion of rain by snow
  332 NPRAIO                           #/kg/s             32 I  Number Tendency due to Accretion of cloud ice to snow
  333 NPRAO                            #/kg/s             32 I  Number Tendency due to Accretion of cloud water by rain
  334 NPRCIO                           #/kg/s             32 I  Number Tendency due to Autoconversion of cloud ice to snow
  335 NPRCO                            #/kg/s             32 I  Number Tendency due to Autoconversion of cloud water [to rain]
  336 NPSACWGO                         #/kg/s             32 I  Change N collection droplets by graupel
  337 NPSACWSO                         #/kg/s             32 I  Number Tendency due to Accretion of cloud water by snow
  338 NRSEDTEN                         #/kg/s             32 I  Number Tendency due to rain sedimentation
  339 NSACWIO                          #/kg/s             32 I  Number Tendency due to Ice Multiplication- Rime-splintering
  340 NSCNGO                           #/kg/s             32 I  Change N conversion to graupel due to collection droplets by snow
  341 NSSEDTEN                         #/kg/s             32 I  Number Tendency due to snow sedimentation
  342 NUMGRA                           1/kg               32 I  Grid box averaged graupel/hail number
  343 NUMICE                           1/kg               32 I  Grid box averaged cloud ice number
  344 NUMLIQ                           1/kg               32 I  Grid box averaged cloud liquid number
  345 NUMRAI                           1/kg               32 I  Grid box averaged rain number
  346 NUMSNO                           1/kg               32 I  Grid box averaged snow number
  347 OMEGA                            Pa/s               32 A  Vertical velocity (pressure)
  348 OMEGAT                           K Pa/s             32 I  Vertical heat flux
  349 PDFP_RTP2_CLUBB                  kg^2/kg^2          32 I  PDF Rtot Variance
  350 PGRACSO                          kg/kg/s            32 I  Q conversion to graupel due to collection rain by snow
  351 PGSACWO                          kg/kg/s            32 I  Q conversion to graupel due to collection droplets by snow
  352 PM10_MMR                         kg/kg              32 I  PM10 mass mixing ratio
  353 PM25_MMR                         kg/kg              32 I  PM2.5 mass mixing ratio
  354 PMID                             Pa                 32 I  Pressure at layer midpoints
  355 PRACGO                           kg/kg/s            32 I  Change in q collection rain by graupel
  356 PRACSO                           kg/kg/s            32 A  Accretion of rain by snow
  357 PRAIO                            kg/kg/s            32 A  Accretion of cloud ice to snow
  358 PRAO                             kg/kg/s            32 A  Accretion of cloud water by rain
  359 PRCIO                            kg/kg/s            32 A  Autoconversion of cloud ice to snow
  360 PRCO                             kg/kg/s            32 A  Autoconversion of cloud water
  361 PRDGO                            kg/kg/s            32 I  Deposition of graupel
  362 PRODPREC                         kg/kg/s            32 A  Rate of conversion of condensate to precip
  363 PSACRO                           kg/kg/s            32 I  Collisions between rain & snow (Graupel collecting snow)
  364 PSACWGO                          kg/kg/s            32 I  Change in q collection droplets by graupel
  365 PSACWSO                          kg/kg/s            32 A  Accretion of cloud water by snow
  366 PTECLDICE                        kg/kg/s            32 I  CLDICE total physics tendency
  367 PTECLDLIQ                        kg/kg/s            32 I  CLDLIQ total physics tendency
  368 PTEQ                             kg/kg/s            32 I  Q total physics tendency
  369 PTTEND                           K/s                32 I  T total physics tendency
  370 Q                                kg/kg              32 I  Specific humidity
  371 QAP                              kg/kg              32 I  Specific humidity (after physics)
  372 QBP                              kg/kg              32 I  Specific humidity (before physics)
  373 QCRAT                            fraction           32 A  Qc Limiter: Fraction of qc tendency applied
  374 QCRESO                           kg/kg/s            32 A  Residual condensation term for cloud water
  375 QCSEDTEN                         kg/kg/s            32 A  Cloud water mixing ratio tendency from sedimentation
  376 QCSEVAP                          kg/kg/s            32 A  Rate of evaporation of falling cloud water
  377 QDIFF                            kg/kg              32 I  difference from observed water
  378 QGSEDTEN                         kg/kg/s            32 I  Graupel/Hail mixing ratio tendency from sedimentation
  379 QIRESO                           kg/kg/s            32 A  Residual deposition term for cloud ice
  380 QISEDTEN                         kg/kg/s            32 A  Cloud ice mixing ratio tendency from sedimentation
  381 QISEVAP                          kg/kg/s            32 A  Rate of sublimation of falling cloud ice
  382 QMULTGO                          kg/kg/s            32 I  Q change due to ice mult droplets/graupel
  383 QMULTRGO                         kg/kg/s            32 I  Q change due to ice mult rain/graupel
  384 QRL                              K/s                32 I  Longwave heating rate
  385 QRS                              K/s                32 I  Solar heating rate
  386 QRSEDTEN                         kg/kg/s            32 I  Rain mixing ratio tendency from sedimentation
  387 QSSEDTEN                         kg/kg/s            32 I  Snow mixing ratio tendency from sedimentation
  388 QTGW                             kg/kg/s            32 I  Q tendency - gravity wave drag
  389 QVRES                            kg/kg/s            32 A  Rate of residual condensation term
  390 RAINQM                           kg/kg              32 I  Grid box averaged rain amount
  391 RAINQMAP                         kg/kg              32 I  RAINQM after physics
  392 RAINQMBP                         kg/kg              32 I  RAINQM before physics
  393 RCMINLAYER_CLUBB                 kg/kg              32 I  Cloud Water in Layer
  394 RCMTEND_CLUBB                    kg/kg /s           32 I  Cloud Liquid Water Tendency
  395 RCM_CLUBB                        kg/kg              32 I  Cloud Water Mixing Ratio
  396 RELHUM                           percent            32 I  Relative humidity
  397 RELVAR                           -                  32 I  Relative cloud water variance
  398 RHO_AIR                          kg/m3              32 I  air density
  399 RHO_CLUBB                        kg/m3              32 I  Air Density
  400 RHW                              percent            32 I  Relative humidity with respect to liquid
  401 RIMTEND_CLUBB                    kg/kg /s           32 I  Cloud Ice Tendency
  402 RTM_CLUBB                        kg/kg              32 I  Total Water Mixing Ratio
  403 RTP2_ZT_CLUBB                    kg^2/kg^2          32 I  Moisture Variance on zt grid
  404 RVMTEND_CLUBB                    kg/kg /s           32 I  Water vapor tendency
  405 SNOWQM                           kg/kg              32 I  Grid box averaged snow amount
  406 SNOWQMAP                         kg/kg              32 I  SNOWQM after physics
  407 SNOWQMBP                         kg/kg              32 I  SNOWQM before physics
  408 SO2                              mol/mol            32 I  SO2 concentration
  409 SOAE                             mol/mol            32 I  SOAE concentration
  410 SOAG                             mol/mol            32 I  SOAG concentration
  411 STEND_CLUBB                      J/(kg s)           32 I  Static energy tendency
  412 T                                K                  32 A  Temperature
  413 TACLDICE                         kg/kg/s            32 I  CLDICE horz + vert
  414 TACLDLIQ                         kg/kg/s            32 I  CLDLIQ horz + vert
  415 TAP                              K                  32 I  Temperature (after physics)
  416 TAQ                              kg/kg/s            32 I  Q horz + vert
  417 TBP                              K                  32 I  Temperature (before physics)
  418 TDIFF                            K                  32 I  difference from observed temp
  419 THLM_CLUBB                       K                  32 I  Liquid Water Potential Temperature
  420 THLP2_ZT_CLUBB                   K^2                32 I  Temperature Variance on zt grid
  421 TTEND_TOT                        K/s                32 I  Total temperature tendency
  422 TTGW                             K s-1              32 I  T tendency - gravity wave drag
  423 U                                m/s                32 A  Zonal wind
  424 UAP                              m/s                32 I  Zonal wind (after physics)
  425 UBP                              m/s                32 I  Zonal wind (before physics)
  426 UM_CLUBB                         m/s                32 I  Zonal Wind
  427 UTEND_CLUBB                      m/s /s             32 I  U-wind Tendency
  428 UTEND_CORE                       m/s2               32 I  Zonal wind tendency due to dynamical core
  429 UTEND_DCONV                      m/s2               32 I  Zonal wind tendency by deep convection
  430 UTEND_GWDTOT                     m/s2               32 I  Zonal wind tendency by all GWs
  431 UTEND_IONDRG                     m/s2               32 I  Zonal wind tendency by ion drag
  432 UTEND_LUNART                     m/s2               32 I  Zonal wind tendency by lunar tides
  433 UTEND_MACROP                     m/s2               32 I  Zonal wind tendency by macrophysics
  434 UTEND_NDG                        m/s2               32 I  Zonal wind tendency by nudging
  435 UTEND_PHYSTOT                    m/s2               32 I  U total physics tendency
  436 UTEND_QBORLX                     m/s2               32 I  Zonal wind tendency by QBO relaxation
  437 UTEND_RAYLEIGH                   m/s2               32 I  Zonal wind tendency by Rayleigh Fric.
  438 UTEND_SHCONV                     m/s2               32 I  Zonal wind tendency by shallow convection
  439 UTEND_TOT                        m/s2               32 I  Total zonal wind tendency
  440 UTEND_VDIFF                      m/s2               32 I  Zonal wind tendency by vert. diffus.
  441 UU                               m2/s2              32 I  Zonal velocity squared
  442 V                                m/s                32 A  Meridional wind
  443 VAP                              m/s                32 I  Meridional wind (after physics)
  444 VAPDEPSO                         kg/kg/s            32 I  Vapor deposition onto snow
  445 VBP                              m/s                32 I  Meridional Wind (before physics)
  446 VD01                             kg/kg/s            32 I  Vertical diffusion of Q
  447 VDCLDICE                         kg/kg/s            32 I  Vertical diffusion of CLDICE
  448 VDCLDLIQ                         kg/kg/s            32 I  Vertical diffusion of CLDLIQ
  449 VM_CLUBB                         m/s                32 I  Meridional Wind
  450 VNEGCLPTEND                      kg/kg/s            32 I  Vapor tendency due to clipping neg values after microp
  451 VQ                               m/skg/kg           32 I  Meridional water transport
  452 VT                               K m/s              32 I  Meridional heat transport
  453 VTEND_CLUBB                      m/s /s             32 I  V-wind Tendency
  454 VTEND_CORE                       m/s2               32 I  Meridional wind tendency due to dynamical core
  455 VTEND_DCONV                      m/s2               32 I  Meridional wind tendency by deep convection
  456 VTEND_GWDTOT                     m/s2               32 I  Meridional wind tendency by all GWs
  457 VTEND_IONDRG                     m/s2               32 I  Meridional wind tendency by ion drag
  458 VTEND_LUNART                     m/s2               32 I  Meridional wind tendency by lunar tides
  459 VTEND_MACROP                     m/s2               32 I  Meridional wind tendency by macrophysics
  460 VTEND_NDG                        m/s2               32 I  Meridional wind tendency by nudging
  461 VTEND_PHYSTOT                    m/s2               32 I  V total physics tendency
  462 VTEND_QBORLX                     m/s2               32 I  Meridional wind tendency by QBO relaxation
  463 VTEND_RAYLEIGH                   m/s2               32 I  Meridional wind tendency by Rayleigh Fric.
  464 VTEND_SHCONV                     m/s2               32 I  Meridional wind tendency by shallow convection
  465 VTEND_TOT                        m/s2               32 I  Total meridional wind tendency
  466 VTEND_VDIFF                      m/s2               32 I  Meridional wind tendency by vert. diffus.
  467 VTRMC                            m/s                32 A  Mass-weighted cloud water fallspeed
  468 VTRMI                            m/s                32 A  Mass-weighted cloud ice fallspeed
  469 VU                               m2/s2              32 I  Meridional flux of zonal momentum
  470 VV                               m2/s2              32 I  Meridional velocity squared
  471 WM_ZT_CLUBB                      m/s                32 I  Vertical Velocity
  472 WP2_ZT_CLUBB                     m2/s2              32 I  Vert Vel Variance on zt grid
  473 WP3_CLUBB                        m3/s3              32 I  Third Moment Vertical Velocity
  474 WSUB                             m/s                32 I  Diagnostic sub-grid vertical velocity
  475 Z3                               m                  32 A  Geopotential Height (above sea level)
  476 ZMDICE                           kg/kg/s            32 I  Cloud ice tendency - Zhang-McFarlane convection
  477 ZMDLIQ                           kg/kg/s            32 I  Cloud liq tendency - Zhang-McFarlane convection
  478 ZMDQ                             kg/kg/s            32 I  Q tendency - Zhang-McFarlane moist convection
  479 ZMDT                             K/s                32 I  T tendency - Zhang-McFarlane moist convection
  480 ZMMTT                            K/s                32 I  T tendency - ZM convective momentum transport
  481 ZT_CLUBB                         m                  32 I  Thermodynamic Heights
  482 bc_a1                            kg/kg              32 I  bc_a1 concentration
  483 bc_a4                            kg/kg              32 I  bc_a4 concentration
  484 bc_c1                            kg/kg              32 I  bc_c1 in cloud water
  485 bc_c4                            kg/kg              32 I  bc_c4 in cloud water
  486 dst_a1                           kg/kg              32 I  dst_a1 concentration
  487 dst_a2                           kg/kg              32 I  dst_a2 concentration
  488 dst_a3                           kg/kg              32 I  dst_a3 concentration
  489 dst_c1                           kg/kg              32 I  dst_c1 in cloud water
  490 dst_c2                           kg/kg              32 I  dst_c2 in cloud water
  491 dst_c3                           kg/kg              32 I  dst_c3 in cloud water
  492 ncl_a1                           kg/kg              32 I  ncl_a1 concentration
  493 ncl_a2                           kg/kg              32 I  ncl_a2 concentration
  494 ncl_a3                           kg/kg              32 I  ncl_a3 concentration
  495 ncl_c1                           kg/kg              32 I  ncl_c1 in cloud water
  496 ncl_c2                           kg/kg              32 I  ncl_c2 in cloud water
  497 ncl_c3                           kg/kg              32 I  ncl_c3 in cloud water
  498 num_a1                            1/kg              32 I  num_a1 concentration
  499 num_a2                            1/kg              32 I  num_a2 concentration
  500 num_a3                            1/kg              32 I  num_a3 concentration
  501 num_a4                            1/kg              32 I  num_a4 concentration
  502 num_c1                            1/kg              32 I  num_c1 in cloud water
  503 num_c2                            1/kg              32 I  num_c2 in cloud water
  504 num_c3                            1/kg              32 I  num_c3 in cloud water
  505 num_c4                            1/kg              32 I  num_c4 in cloud water
  506 pom_a1                           kg/kg              32 I  pom_a1 concentration
  507 pom_a4                           kg/kg              32 I  pom_a4 concentration
  508 pom_c1                           kg/kg              32 I  pom_c1 in cloud water
  509 pom_c4                           kg/kg              32 I  pom_c4 in cloud water
  510 so4_a1                           kg/kg              32 I  so4_a1 concentration
  511 so4_a2                           kg/kg              32 I  so4_a2 concentration
  512 so4_a3                           kg/kg              32 I  so4_a3 concentration
  513 so4_c1                           kg/kg              32 I  so4_c1 in cloud water
  514 so4_c2                           kg/kg              32 I  so4_c2 in cloud water
  515 so4_c3                           kg/kg              32 I  so4_c3 in cloud water
  516 soa_a1                           kg/kg              32 I  soa_a1 concentration
  517 soa_a2                           kg/kg              32 I  soa_a2 concentration
  518 soa_c1                           kg/kg              32 I  soa_c1 in cloud water
  519 soa_c2                           kg/kg              32 I  soa_c2 in cloud water
  520 C11_Skw_fnc                      count              33 I  C_11 parameter with Sk_w applied
  521 C1_Skw_fnc                       -                  33 I  C_1 parameter with Sk_w applied
  522 C6rt_Skw_fnc                     -                  33 I  C_6rt parameter with Sk_w applied
  523 C6thl_Skw_fnc                    -                  33 I  C_6thl parameter with Sk_w applied
  524 C7_Skw_fnc                       -                  33 I  C_7 parameter with Sk_w applied
  525 FDL                              W/m2               33 I  Longwave downward flux
  526 Fcsed                            kg/(s*m^2)         33 I  cloud water sedimentation flux
  527 Fprec                            W/m^2              33 I  Rain flux
  528 Frad                             W/m^2              33 I  Total (sw+lw) net (up+down) radiative flux
  529 Frad_LW                          W/m^2              33 I  Net long-wave radiative flux
  530 Frad_LW_down                     W/m^2              33 I  Long-wave downwelling radiative flux
  531 Frad_LW_up                       W/m^2              33 I  Long-wave upwelling radiative flux
  532 Frad_SW                          W/m^2              33 I  Net short-wave radiative flux
  533 Frad_SW_down                     W/m^2              33 I  Short-wave downwelling radiative flux
  534 Frad_SW_up                       W/m^2              33 I  Short-wave upwelling radiative flux
  535 Kh_zm                            m^2/s              33 I  Eddy diffusivity on momentum levels
  536 Kh_zt                            m^2/s              33 I  Eddy diffusivity
  537 Lscale                           m                  33 I  Turbulent mixing length
  538 Lscale_down                      m                  33 I  Downward mixing length
  539 Lscale_pert_1                    m                  33 I  Mixing length using a perturbed value of rtm/thlm
  540 Lscale_pert_2                    m                  33 I  Mixing length using a perturbed value of rtm/thlm
  541 Lscale_up                        m                  33 I  Upward mixing length
  542 Nc_activated                     num/kg             33 I  Droplets activated by GFDL activation
  543 Nc_in_cloud                      num/kg             33 I  In cloud droplet concentration
  544 Ncm                              num/kg             33 I  Cloud droplet number concentration
  545 Ncnm                             num/kg             33 I  Cloud nuclei concentration (PDF)
  546 RTP2_CLUBB                       kg^2/kg^2          33 I  Moisture Variance
  547 RTPTHLP_CLUBB                    K kg/kg            33 I  Temp. Moist. Covariance
  548 Skw_velocity                     m/s                33 I  Skewness velocity
  549 THLP2_CLUBB                      K^2                33 I  Temperature Variance
  550 T_in_K                           K                  33 I  Absolute temperature
  551 UP2_CLUBB                        m2/s2              33 I  Zonal Velocity Variance
  552 UPWP_CLUBB                       m2/s2              33 I  Zonal Momentum Flux
  553 VP2_CLUBB                        m2/s2              33 I  Meridional Velocity Variance
  554 VPWP_CLUBB                       m2/s2              33 I  Meridional Momentum Flux
  555 WP2_CLUBB                        m2/s2              33 I  Vertical Velocity Variance
  556 WPRCP_CLUBB                      W/m2               33 I  Liquid Water Flux
  557 WPRTP_CLUBB                      W/m2               33 I  Moisture Flux
  558 WPTHLP_CLUBB                     W/m2               33 I  Heat Flux
  559 WPTHVP_CLUBB                     W/m2               33 I  Buoyancy Flux
  560 ZM_CLUBB                         m                  33 I  Momentum Heights
  561 a3_coef                          count              33 I  Quantity in formula 25 from Equations for CLUBB
  562 a3_coef_zt                       count              33 I  The a3 coefficient interpolated the the zt grid
  563 chi_1                            kg/kg              33 I  pdf parameter: Mellor's s (extended liq) for component 1
  564 chi_2                            kg/kg              33 I  pdf parameter: Mellor's s (extended liq) for component 2
  565 cloud_cover                      count              33 I  Cloud cover (between 0 and 1)
  566 cloud_frac                       -                  33 I  Cloud fraction (between 0 and 1)
  567 cloud_frac_1                     -                  33 I  pdf parameter cloud_frac_1
  568 cloud_frac_2                     -                  33 I  pdf parameter cloud_frac_2
  569 cloud_frac_zm                    -                  33 I  Cloud fraction
  570 corr_chi_eta_1                   -                  33 I  Correlation of chi (s) and eta (t) (1st PDF component)
  571 corr_chi_eta_2                   -                  33 I  Correlation of chi (s) and eta (t) (2nd PDF component)
  572 corr_rt_thl_1                    -                  33 I  Correlation of rt and thl (1st PDF component)
  573 covar_chi_eta_1                  kg^2/kg^2          33 I  Covariance of chi(s) and eta(t) (1st PDF component)
  574 covar_chi_eta_2                  kg^2/kg^2          33 I  Covariance of chi(s) and eta(t) (2nd PDF component)
  575 crt_1                            -                  33 I  Coefficient on rt in chi/eta equations (1st PDF comp.)
  576 crt_2                            -                  33 I  Coefficient on rt in chi/eta equations (2nd PDF comp.)
  577 cthl_1                           kg/kg/K            33 I  Coefficient on theta-l in chi/eta equations (1st PDF comp.)
  578 cthl_2                           kg/kg/K            33 I  Coefficient on theta-l in chi/eta equations (2nd PDF comp.)
  579 diam                             m                  33 I  Ice crystal diameter
  580 em                               m^2/s^2            33 I  Turbulent kinetic energy, usu. 0.5*(u'^2+v'^2+w'^2)
  581 exner                            count              33 I  Exner function = (p/p0)**(rd/cp)
  582 gamma_Skw_fnc                    -                  33 I  Gamma as a function of skewness
  583 mass_ice_cryst                   kg                 33 I  Mass of a single ice crystal
  584 mean_w_down                      m/s                33 I  Mean w <= w_ref
  585 mean_w_up                        m/s                33 I  Mean w >= w_ref
  586 mixt_frac                        count              33 I  pdf parameter: mixture fraction
  587 p_in_Pa                          Pa                 33 I  Pressure
  588 precip_frac                      -                  33 I  Precipitation Fraction
  589 precip_frac_1                    -                  33 I  Precipitation Fraction (1st PDF component)
  590 precip_frac_2                    -                  33 I  Precipitation Fraction (2nd PDF component)
  591 radht                            K/s                33 I  Total (sw+lw) radiative heating rate
  592 radht_LW                         K/s                33 I  Long-wave radiative heating rate
  593 radht_SW                         K/s                33 I  Short-wave radiative heating rate
  594 rc_1                             kg/kg              33 I  pdf parameter: mean rc of component 1
  595 rc_2                             kg/kg              33 I  pdf parameter: mean rc of component 2
  596 rcm                              kg/kg              33 I  Cloud water mixing ratio
  597 rcm_icedfs                       kg/kg/s            33 I  Change in liquid due to ice
  598 rcm_in_cloud                     kg/kg              33 I  In-cloud value of rcm (for microphysics)
  599 rcm_in_layer                     kg/kg              33 I  rcm in cloud layer
  600 rcm_mc                           kg/kg/s            33 I  Time tendency of liquid water mixing ratio due microphysics
  601 rcm_sd_mg_morr                   kg kg^{-1} s^{-1   33 I  rcm sedimentation when using morrision or MG microphysics (not in budget, included in rcm_mc)
  602 rcm_zm                           kg/kg              33 I  Total water mixing ratio
  603 rcp2                             (kg^2)/(kg^2)      33 I  Variance of cloud water mixing ratio
  604 rel_humidity                     [-]                33 I  Relative humidity w.r.t. liquid (between 0 and 1)
  605 rho                              kg m^{-3}          33 I  Air density
  606 rho_ds_zm                        kg m^{-3}          33 I  Dry static, base-state density
  607 rho_ds_zt                        kg m^{-3}          33 I  Dry static base-state density
  608 rho_zm                           kg m^{-3}          33 I  Density on momentum levels
  609 rsat                             kg/kg              33 I  Saturation mixing ratio over liquid
  610 rsati                            kg/kg              33 I  Saturation mixing ratio over ice
  611 rsatl_1                          kg/kg              33 I  pdf parameter: sat mix rat based on tl1
  612 rsatl_2                          kg/kg              33 I  pdf parameter: sat mix rat based on tl2
  613 rt_1                             kg/kg              33 I  pdf parameter: mean rt of component 1
  614 rt_2                             kg/kg              33 I  pdf parameter: mean rt of component 2
  615 rtm                              kg/kg              33 I  Total (vapor+liquid) water mixing ratio
  616 rtm_bt                           kg kg^{-1} s^{-1   33 I  rtm budget: rtm time tendency
  617 rtm_cl                           kg kg^{-1} s^{-1   33 I  rtm budget: rtm clipping
  618 rtm_enter_mfl                    kg/kg              33 I  Rtm before flux-limiter
  619 rtm_exit_mfl                     kg/kg              33 I  Rtm exiting flux-limiter
  620 rtm_forcing                      kg kg^{-1} s^{-1   33 I  rtm budget: rt forcing (includes rtm_mc)
  621 rtm_ma                           kg kg^{-1} s^{-1   33 I  rtm budget: rtm vertical mean advection
  622 rtm_mc                           kg kg^{-1} s^{-1   33 I  Change in rt due to microphysics (not in budget)
  623 rtm_mfl                          kg kg^{-1} s^{-1   33 I  rtm budget: rtm correction due to monotonic flux limiter
  624 rtm_mfl_max                      kg/kg              33 I  Maximum allowable rtm
  625 rtm_mfl_min                      kg/kg              33 I  Minimum allowable rtm
  626 rtm_old                          kg/kg              33 I  Rtm at previous timestep
  627 rtm_pd                           kg kg^{-1} s^{-1   33 I  rtm budget: rtm positive definite adjustment
  628 rtm_sdmp                         kg kg^{-1} s^{-1   33 I  rtm budget: rtm correction due to sponge damping
  629 rtm_ta                           kg kg^{-1} s^{-1   33 I  rtm budget: rtm turbulent advection
  630 rtm_tacl                         kg kg^{-1} s^{-1   33 I  rtm budget: rtm correction due to ta term (wprtp) clipping
  631 rtm_without_ta                   kg/kg              33 I  Rtm without turbulent advection contribution
  632 rtm_zm                           kg/kg              33 I  Total water mixing ratio
  633 rtp2                             (kg/kg)^2          33 I  Variance of total water, rt
  634 rtp2_bt                          (kg^2)/(kg^2 s)    33 I  rt'2 budget: rtp2 time tendency
  635 rtp2_cl                          (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 clipping term
  636 rtp2_dp1                         (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 dissipation term 1
  637 rtp2_dp2                         (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 dissipation term 2
  638 rtp2_forcing                     (kg/kg)^2/s        33 I  rtp2 budget: rtp2 forcing (includes microphysics tendency)
  639 rtp2_ma                          (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 mean advection
  640 rtp2_mc                          (kg/kg)^2/s        33 I  Microphysics tendency for rtp2 (not in budget)
  641 rtp2_pd                          (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 positive definite adjustment
  642 rtp2_sf                          (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 surface variance
  643 rtp2_ta                          (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 turbulent advection
  644 rtp2_tp                          (kg^2)/(kg^2 s)    33 I  rtp2 budget: rtp2 turbulent production
  645 rtp2_zt                          (kg/kg)^2          33 I  rt'^2 interpolated to thermodynamic levels
  646 rtprcp                           (kg^2)/(kg^2)      33 I  rt'rc'
  647 rtpthlp                          (kg K)/kg          33 I  Covariance of rt and theta_l
  648 rtpthlp_bt                       (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp time tendency
  649 rtpthlp_cl                       (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp clipping term
  650 rtpthlp_dp1                      (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp dissipation term 1
  651 rtpthlp_dp2                      (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp dissipation term 2
  652 rtpthlp_forcing                  (K kg/kg)/s        33 I  rtpthlp budget: rtpthlp forcing (includes microphysics tendency)
  653 rtpthlp_ma                       (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp mean advection
  654 rtpthlp_mc                       (K kg/kg)/s        33 I  Microphysics tendency for rtpthlp (not in budget)
  655 rtpthlp_sf                       (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp surface variance
  656 rtpthlp_ta                       (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp turbulent advection
  657 rtpthlp_tp1                      (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp turbulent production 1
  658 rtpthlp_tp2                      (kg K)/(kg s)      33 I  rtpthlp budget: rtpthlp turbulent production 2
  659 rtpthlp_zt                       (kg K)/kg          33 I  rt'thl' interpolated to thermodynamic levels
  660 rtpthvp                          (kg/kg) K          33 I  Covariance of rt and theta_v
  661 rvm                              kg/kg              33 I  Vapor water mixing ratio
  662 rvm_mc                           kg/(kg s)          33 I  Time tendency of vapor mixing ratio due to microphysics
  663 sed_rcm                          kg / [m^2 s]       33 I  d(rcm)/dt due to cloud sedimentation
  664 shear                            m^2/s^3            33 I  Wind shear production term
  665 sigma_sqd_w                      -                  33 I  Nondim w variance of Gaussian component
  666 sigma_sqd_w_zt                   -                  33 I  Nondimensionalized w variance of Gaussian component
  667 snowslope                        1/m                33 I  COAMPS microphysics snow slope parameter
  668 stdev_chi_1                      kg/kg              33 I  pdf parameter: Std dev of chi_1
  669 stdev_chi_2                      kg/kg              33 I  pdf parameter: Std dev of chi_2
  670 stdev_eta_1                      kg/kg              33 I  Standard dev. of eta(t) (1st PDF component)
  671 stdev_eta_2                      kg/kg              33 I  Standard dev. of eta(t) (2nd PDF component)
  672 tau_zm                           s                  33 I  Time-scale tau on momentum levels
  673 tau_zt                           s                  33 I  Dissipation time
  674 thl_1                            K                  33 I  pdf parameter: mean thl of component 1
  675 thl_2                            K                  33 I  pdf parameter: mean thl of component 2
  676 thlm                             K                  33 I  Liquid water potential temperature (theta_l)
  677 thlm_bt                          K s^{-1}           33 I  thlm budget: thlm time tendency
  678 thlm_cl                          K s^{-1}           33 I  thlm budget: thlm_cl
  679 thlm_enter_mfl                   K                  33 I  Thlm before flux-limiter
  680 thlm_exit_mfl                    K                  33 I  Thlm exiting flux-limiter
  681 thlm_forcing                     K s^{-1}           33 I  thlm budget: thetal forcing (includes thlm_mc and radht)
  682 thlm_ma                          K s^{-1}           33 I  thlm budget: thlm vertical mean advection
  683 thlm_mc                          K s^{-1}           33 I  Change in thlm due to microphysics (not in budget)
  684 thlm_mfl                         K s^{-1}           33 I  thlm budget: thlm correction due to monotonic flux limiter
  685 thlm_mfl_max                     K                  33 I  Maximum allowable thlm
  686 thlm_mfl_min                     K                  33 I  Minimum allowable thlm
  687 thlm_old                         K                  33 I  Thlm at previous timestep
  688 thlm_sdmp                        K s^{-1}           33 I  thlm budget: thlm correction due to sponge damping
  689 thlm_ta                          K s^{-1}           33 I  thlm budget: thlm turbulent advection
  690 thlm_tacl                        K s^{-1}           33 I  thlm budget: thlm correction due to ta term (wpthlp) clipping
  691 thlm_without_ta                  K                  33 I  Thlm without turbulent advection contribution
  692 thlm_zm                          K                  33 I  Liquid potential temperature
  693 thlp2                            K^2                33 I  Variance of theta_l
  694 thlp2_bt                         (K^2)/s            33 I  thlp2 budget: thlp2 time tendency
  695 thlp2_cl                         (K^2)/s            33 I  thlp2 budget: thlp2 clipping term
  696 thlp2_dp1                        (K^2)/s            33 I  thlp2 budget: thlp2 dissipation term 1
  697 thlp2_dp2                        (K^2)/s            33 I  thlp2 budget: thlp2 dissipation term 2
  698 thlp2_forcing                    K^2/s              33 I  thlp2 budget: thlp2 forcing (includes microphysics tendency) [K^2/s]
  699 thlp2_ma                         (K^2)/s            33 I  thlp2 budget: thlp2 mean advection
  700 thlp2_mc                         K^2/s              33 I  Microphysics tendency for thlp2 (not in budget)
  701 thlp2_pd                         K^2/s              33 I  thlp2 budget: thlp2 positive definite adjustment
  702 thlp2_sf                         K^2/s              33 I  thl'^2 budget: thlp2 surface variance
  703 thlp2_ta                         (K^2)/s            33 I  thlp2 budget: thlp2 turbulent advection
  704 thlp2_tp                         (K^2)/s            33 I  thlp2 budget: thlp2 turbulent production
  705 thlp2_zt                         K^2                33 I  thl'^2 interpolated to thermodynamic levels
  706 thlprcp                          K (kg/kg)          33 I  thl'rc'
  707 thlpthvp                         K^2                33 I  Covariance of theta_l and theta_v
  708 thv_ds_zm                        K                  33 I  Dry, base-state theta_v
  709 thv_ds_zt                        K                  33 I  Dry base-state theta_v
  710 thvm                             K                  33 I  Virtual potential temperature
  711 u_T_cm                           cm s^{-1}          33 I  Ice crystal fallspeed
  712 ug                               m/s                33 I  u geostrophic wind
  713 um                               m/s                33 I  Grid-mean eastward (u) wind
  714 um_bt                            m s^{-2}           33 I  um budget: um time tendency
  715 um_cf                            m s^{-2}           33 I  um budget: um coriolis forcing
  716 um_f                             m s^{-2}           33 I  um budget: um forcing
  717 um_gf                            m s^{-2}           33 I  um budget: um geostrophic forcing
  718 um_ma                            m s^{-2}           33 I  um budget: um vertical mean advection
  719 um_ndg                           m s^{-2}           33 I  um budget: um nudging
  720 um_ref                           m/s                33 I  Reference u wind
  721 um_sdmp                          m s^{-2}           33 I  um budget: um sponge damping
  722 um_ta                            m s^{-2}           33 I  um budget: um turbulent advection
  723 up2                              m^2/s^2            33 I  Variance of eastward (u) wind
  724 up2_bt                           m^2/s^3            33 I  up2 budget: up2 time tendency
  725 up2_cl                           m^2/s^3            33 I  up2 budget: up2 clipping
  726 up2_dp1                          m^2/s^3            33 I  up2 budget: up2 dissipation term 1
  727 up2_dp2                          m^2/s^3            33 I  up2 budget: up2 dissipation term 2
  728 up2_ma                           m^2/s^3            33 I  up2 budget: up2 mean advection
  729 up2_pd                           m^2/s^3            33 I  up2 budget: up2 positive definite adjustment
  730 up2_pr1                          m^2/s^3            33 I  up2 budget: up2 pressure term 1
  731 up2_pr2                          m^2/s^3            33 I  up2 budget: up2 pressure term 2
  732 up2_sf                           m^2/s^3            33 I  up2 budget: up2 surface variance
  733 up2_ta                           m^2/s^3            33 I  up2 budget: up2 turbulent advection
  734 up2_tp                           m^2/s^3            33 I  up2 budget: up2 turbulent production
  735 up2_zt                           m^2/s^2            33 I  u'^2 interpolated to thermodynamic levels
  736 upwp                             m^2/s^2            33 I  Vertical turbulent flux of eastward (u) wind
  737 upwp_zt                          m^2/s^2            33 I  u'w' interpolated to thermodynamic levels
  738 varnce_rt_1                      (kg^2)/(kg^2)      33 I  pdf parameter: rt variance of component 1
  739 varnce_rt_2                      (kg^2)/(kg^2)      33 I  pdf parameter: rt variance of component 2
  740 varnce_thl_1                     K^2                33 I  pdf parameter: thl variance of component 1
  741 varnce_thl_2                     K^2                33 I  pdf parameter: thl variance of component 2
  742 varnce_w_1                       m^2/s^2            33 I  pdf parameter: w variance of component 1
  743 varnce_w_2                       m^2/s^2            33 I  pdf parameter: w variance of component 2
  744 vg                               m/s                33 I  v geostrophic wind
  745 vm                               m/s                33 I  Grid-mean northward (v) wind
  746 vm_bt                            m s^{-2}           33 I  vm budget: vm time tendency
  747 vm_cf                            m s^{-2}           33 I  vm budget: vm coriolis forcing
  748 vm_f                             m s^{-2}           33 I  vm budget: vm forcing
  749 vm_gf                            m s^{-2}           33 I  vm budget: vm geostrophic forcing
  750 vm_ma                            m s^{-2}           33 I  vm budget: vm vertical mean advection
  751 vm_ndg                           m s^{-2}           33 I  vm budget: vm nudging
  752 vm_ref                           m/s                33 I  Reference v wind
  753 vm_sdmp                          m s^{-2}           33 I  vm budget: vm sponge damping
  754 vm_ta                            m s^{-2}           33 I  vm budget: vm turbulent transport
  755 vp2                              m^2/s^2            33 I  Variance of northward (v) wind
  756 vp2_bt                           m^2/s^3            33 I  vp2 budget: vp2 time tendency
  757 vp2_cl                           m^2/s^3            33 I  vp2 budget: vp2 clipping
  758 vp2_dp1                          m^2/s^3            33 I  vp2 budget: vp2 dissipation term 1
  759 vp2_dp2                          m^2/s^3            33 I  vp2 budget: vp2 dissipation term 2
  760 vp2_ma                           m^2/s^3            33 I  vp2 budget: vp2 mean advection
  761 vp2_pd                           m^2/s^3            33 I  vp2 budget: vp2 positive definite adjustment
  762 vp2_pr1                          m^2/s^3            33 I  vp2 budget: vp2 pressure term 1
  763 vp2_pr2                          m^2/s^3            33 I  vp2 budget: vp2 pressure term 2
  764 vp2_sf                           m^2/s^3            33 I  vp2 budget: vp2 surface variance
  765 vp2_ta                           m^2/s^3            33 I  vp2 budget: vp2 turbulent advection
  766 vp2_tp                           m^2/s^3            33 I  vp2 budget: vp2 turbulent production
  767 vp2_zt                           m^2/s^2            33 I  v'^2 interpolated to thermodynamic levels
  768 vpwp                             m^2/s^2            33 I  Vertical turbulent flux of northward (v) wind
  769 vpwp_zt                          m^2/s^2            33 I  v'w' interpolated to thermodynamic levels
  770 w_1                              m/s                33 I  pdf parameter: mean w of component 1
  771 w_2                              m/s                33 I  pdf paramete: mean w of component 2
  772 wm_zm                            m/s                33 I  Vertical (w) wind
  773 wp2                              m^2/s^2            33 I  Variance of vertical air velocity
  774 wp2_ac                           m^2/s^3            33 I  wp2 budget: wp2 accumulation term
  775 wp2_bp                           m^2/s^3            33 I  wp2 budget: wp2 buoyancy production
  776 wp2_bt                           m^2/s^3            33 I  wp2 budget: wp2 time tendency
  777 wp2_cl                           m^2/s^3            33 I  wp2 budget: wp2 clipping term
  778 wp2_dp1                          m^2/s^3            33 I  wp2 budget: wp2 dissipation term 1
  779 wp2_dp2                          m^2/s^3            33 I  wp2 budget: wp2 dissipation term 2
  780 wp2_ma                           m^2/s^3            33 I  wp2 budget: wp2 vertical mean advection
  781 wp2_pd                           m2/s3              33 I  wp2 budget: wp2 positive definite adjustment
  782 wp2_pr1                          m^2/s^3            33 I  wp2 budget: wp2 pressure term 1
  783 wp2_pr2                          m^2/s^3            33 I  wp2 budget: wp2 pressure term 2
  784 wp2_pr3                          m^2/s^3            33 I  wp2 budget: wp2 pressure term 3
  785 wp2_sf                           m2/s3              33 I  wp2 budget: wp2 surface variance
  786 wp2_ta                           m^2/s^3            33 I  wp2 budget: wp2 turbulent advection
  787 wp2_zt                           m^2/s^2            33 I  w'^2 interpolated to thermodynamic levels
  788 wp2rcp                           (m^2 kg)/(s^2 kg   33 I  w'^2rc'
  789 wp2rtp                           (m^2 kg)/(s^2 kg   33 I  Vertical turbulent flux of w'rt'
  790 wp2thlp                          (m^2 K)/s^2        33 I  Vertical turbulent flux of w'theta_l'
  791 wp2thvp                          K m^2/s^2          33 I  Vertical turbulent flux of w'theta_v'
  792 wp3                              m^3/s^3            33 I  Third-order moment of vertical air velocity
  793 wp3_ac                           m^{3} s^{-4}       33 I  wp3 budget: wp3 accumulation term
  794 wp3_bp1                          m^{3} s^{-4}       33 I  wp3 budget: wp3 buoyancy production
  795 wp3_bt                           m^{3} s^{-4}       33 I  wp3 budget: wp3 time tendency
  796 wp3_cl                           m^{3} s^{-4}       33 I  wp3 budget: wp3 clipping term
  797 wp3_dp1                          m^{3} s^{-4}       33 I  wp3 budget: wp3 dissipation term 1
  798 wp3_ma                           m^{3} s^{-4}       33 I  wp3 budget: wp3 vertical mean advection
  799 wp3_on_wp2                       m/s                33 I  Smoothed version of wp3 / wp2
  800 wp3_on_wp2_zt                    m/s                33 I  Smoothed version of wp3 / wp2
  801 wp3_pr1                          m^{3} s^{-4}       33 I  wp3 budget: wp3 pressure term 1
  802 wp3_pr2                          m^{3} s^{-4}       33 I  wp3 budget: wp3 pressure term 2
  803 wp3_pr_dfsn                      m^{3} s^{-4}       33 I  wp3 budget: wp3 pressure diffusion term
  804 wp3_pr_turb                      m^{3} s^{-4}       33 I  wp3 budget: wp3 pressure-turbulence correlation term
  805 wp3_ta                           m^{3} s^{-4}       33 I  wp3 budget: wp3 turbulent advection
  806 wp3_tp                           m^{3} s^{-4}       33 I  wp3 budget: wp3 turbulent transport
  807 wp3_zm                           (m^3)/(s^3)        33 I  w'^3 interpolated to moment. levels
  808 wp4                              (m^4)/(s^4)        33 I  Fourth-order moment of vertical air velocity
  809 wprcp                            (m/s) (kg/kg)      33 I  w'rc'
  810 wprtp                            (m kg)/(s kg)      33 I  Vertical turbulent flux of total water, rt
  811 wprtp2                           (m kg)/(s kg)      33 I  Vertical turbulent flux of rt'^2
  812 wprtp_ac                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp accumulation term
  813 wprtp_bp                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp buoyancy production
  814 wprtp_bt                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp time tendency
  815 wprtp_cl                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp clipping term
  816 wprtp_dp1                        (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp dissipation term 1
  817 wprtp_enter_mfl                  (m kg)/(s kg)      33 I  Wprtp entering flux limiter
  818 wprtp_exit_mfl                   (m kg)/(s kg)      33 I  Wprtp exiting flux limiter
  819 wprtp_forcing                    (m kg/kg)/s^2      33 I  wprtp budget: wprtp forcing (includes microphysics tendency)
  820 wprtp_ma                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp mean advection
  821 wprtp_mc                         (m kg/kg)/s^2      33 I  Microphysics tendency for wprtp (not in budget)
  822 wprtp_mfl                        (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp monotonic flux limiter
  823 wprtp_mfl_min                    (m kg)/(s kg)      33 I  Minimum allowable wprtp
  824 wprtp_pd                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp flux corrected trans. term
  825 wprtp_pr1                        (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp pressure term 1
  826 wprtp_pr2                        (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp pressure term 2
  827 wprtp_pr3                        (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp pressure term 3
  828 wprtp_ta                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp turbulent advection
  829 wprtp_tp                         (m kg)/(s^2 kg)    33 I  wprtp budget: wprtp turbulent production
  830 wprtp_zt                         (m kg)/(s kg)      33 I  w'rt' interpolated to thermodynamic levels
  831 wprtpthlp                        (m kg K)/(s kg)    33 I  Vertical turbulent flux of rt'theta_l'
  832 wpthlp                           (m K)/s            33 I  Vertical turbulent flux of theta_l
  833 wpthlp2                          (m K^2)/s          33 I  Vertical turbulent flux of theta_l'^2
  834 wpthlp_ac                        (m K)/s^2          33 I  wpthlp budget: wpthlp accumulation term
  835 wpthlp_bp                        (m K)/s^2          33 I  wpthlp budget: wpthlp buoyancy production
  836 wpthlp_bt                        (m K)/s^2          33 I  wpthlp budget
  837 wpthlp_cl                        (m K)/s^2          33 I  wpthlp budget: wpthlp clipping term
  838 wpthlp_dp1                       (m K)/s^2          33 I  wpthlp budget: wpthlp dissipation term 1
  839 wpthlp_enter_mfl                 (m K)/s            33 I  Wpthlp entering flux limiter
  840 wpthlp_exit_mfl                  (m K)/s            33 I  Wpthlp exiting flux limiter
  841 wpthlp_forcing                   (m K)/s^2          33 I  wpthlp budget: wpthlp forcing (includes microphysics tendency)
  842 wpthlp_ma                        (m K)/s^2          33 I  wpthlp budget: wpthlp mean advection
  843 wpthlp_mc                        (m K)/s^2          33 I  Microphysics tendency for wpthlp (not in budget)
  844 wpthlp_mfl                       (m K)/s^2          33 I  wpthlp budget: wpthlp monotonic flux limiter
  845 wpthlp_mfl_max                   (m K)/s            33 I  Maximum allowable wpthlp
  846 wpthlp_mfl_min                   (m K)/s            33 I  Minimum allowable wpthlp
  847 wpthlp_pr1                       (m K)/s^2          33 I  wpthlp budget: wpthlp pressure term 1
  848 wpthlp_pr2                       (m K)/s^2          33 I  wpthlp budget: wpthlp pressure term 2
  849 wpthlp_pr3                       (m K)/s^2          33 I  wpthlp budget: wpthlp pressure term 3
  850 wpthlp_ta                        (m K)/s^2          33 I  wpthlp budget: wpthlp turbulent advection
  851 wpthlp_tp                        (m K)/s^2          33 I  wpthlp budget: wpthlp turbulent production
  852 wpthlp_zt                        (m K)/s            33 I  w'thl' interpolated to thermodynamic levels
  853 wpthvp                           K m/s              33 I  Buoyancy flux
  854 wprtp_mfl_max                    (m kg)/(s kg)      33 I  Maximum allowable wprtp
  
 FLDLST: History stream            2  contains            9  fields
  Write frequency:                            1
  Filename specifier:              %c.cam.h%t%f.%y-%m-%d-%s.nc
  Output precision:                single
  Number of time samples per file:         5000
  Fields are represented on global grids:
           100
  Included fields are:
    1 CDNUMC                           1/m2                1 I  Vertically-integrated droplet concentration
    2 CLDTOT                           fraction            1 I  Vertically-integrated total cloud
    3 FLUT                             W/m2                1 I  Upwelling longwave flux at top of model
    4 LWCF                             W/m2                1 I  Longwave cloud forcing
    5 PRECT                            m/s                 1 I  Total (convective and large-scale) precipitation rate (liq + ice)
    6 SWCF                             W/m2                1 I  Shortwave cloud forcing
    7 CLDICE                           kg/kg              32 I  Grid box averaged cloud ice amount
    8 CLDLIQ                           kg/kg              32 I  Grid box averaged cloud liquid amount
    9 CLDST                            fraction           32 I  Stratus cloud fraction
  
 FLDLST: History stream           12  contains           57  fields
  Write frequency:                 YEARLY   (INITIAL CONDITIONS)
  Filename specifier:              %c.cam.i.%y-%m-%d-%s.nc
  Output precision:                double
  Number of time samples per file:            1
  Fields are represented on global grids:
           100
           101
  Included fields are:
    1 CUSH&IC                          m                   1 I  Convective Scale Height
    2 PBLH&IC                          m                   1 I  PBL height
    3 PS&IC                            Pa                  1 I  Surface pressure
    4 QPERT&IC                         kg/kg               1 I  Perturbation specific humidity (eddies in PBL)
    5 TPERT&IC                         K                   1 I  Perturbation temperature (eddies in PBL)
    6 CFC11&IC                         kg/kg              32 I  CFC11
    7 CFC12&IC                         kg/kg              32 I  CFC12
    8 CH4&IC                           kg/kg              32 I  CH4
    9 CLDICE&IC                        kg/kg              32 I  Grid box averaged cloud ice amount
   10 CLDLIQ&IC                        kg/kg              32 I  Grid box averaged cloud liquid amount
   11 CLOUD&IC                         fraction           32 I  Cloud fraction
   12 CO2&IC                           kg/kg              32 I  CO2
   13 CONCLD&IC                        fraction           32 I  Convective cloud fraction
   14 DMS&IC                           kg/kg              32 I  DMS
   15 GRAUQM&IC                        kg/kg              32 I  Grid box averaged graupel/hail amount
   16 H2O2&IC                          kg/kg              32 I  H2O2
   17 H2SO4&IC                         kg/kg              32 I  H2SO4
   18 LCWAT&IC                         kg/kg              32 I  Cloud water (ice + liq
   19 N2O&IC                           kg/kg              32 I  N2O
   20 NUMGRA&IC                        kg/kg              32 I  Grid box averaged graupel/hail number
   21 NUMICE&IC                        kg/kg              32 I  Grid box averaged cloud ice number
   22 NUMLIQ&IC                        kg/kg              32 I  Grid box averaged cloud liquid number
   23 NUMRAI&IC                        kg/kg              32 I  Grid box averaged rain number
   24 NUMSNO&IC                        kg/kg              32 I  Grid box averaged snow number
   25 Q&IC                             kg/kg              32 I  Specific humidity
   26 QCWAT&IC                         kg/kg              32 I  q associated with cloud water
   27 RAINQM&IC                        kg/kg              32 I  Grid box averaged rain amount
   28 SNOWQM&IC                        kg/kg              32 I  Grid box averaged snow amount
   29 SO2&IC                           kg/kg              32 I  SO2
   30 SOAE&IC                          kg/kg              32 I  SOAE
   31 SOAG&IC                          kg/kg              32 I  SOAG
   32 T&IC                             K                  32 I  Temperature
   33 TCWAT&IC                         kg/kg              32 I  T associated with cloud water
   34 U&IC                             m/s                32 I  Zonal wind
   35 V&IC                             m/s                32 I  Meridional wind
   36 bc_a1&IC                         kg/kg              32 I  bc_a1
   37 bc_a4&IC                         kg/kg              32 I  bc_a4
   38 dst_a1&IC                        kg/kg              32 I  dst_a1
   39 dst_a2&IC                        kg/kg              32 I  dst_a2
   40 dst_a3&IC                        kg/kg              32 I  dst_a3
   41 ncl_a1&IC                        kg/kg              32 I  ncl_a1
   42 ncl_a2&IC                        kg/kg              32 I  ncl_a2
   43 ncl_a3&IC                        kg/kg              32 I  ncl_a3
   44 num_a1&IC                        kg/kg              32 I  num_a1
   45 num_a2&IC                        kg/kg              32 I  num_a2
   46 num_a3&IC                        kg/kg              32 I  num_a3
   47 num_a4&IC                        kg/kg              32 I  num_a4
   48 pom_a1&IC                        kg/kg              32 I  pom_a1
   49 pom_a4&IC                        kg/kg              32 I  pom_a4
   50 so4_a1&IC                        kg/kg              32 I  so4_a1
   51 so4_a2&IC                        kg/kg              32 I  so4_a2
   52 so4_a3&IC                        kg/kg              32 I  so4_a3
   53 soa_a1&IC                        kg/kg              32 I  soa_a1
   54 soa_a2&IC                        kg/kg              32 I  soa_a2
   55 KVH&IC                           m2/s               33 I  Vertical diffusion diffusivities (heat/moisture)
   56 TKE&IC                           m2/s2              33 I  Turbulent Kinetic Energy
   57 KVM&IC                           m2/s               33 I  Vertical diffusion diffusivities (momentum)
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport field = cpl_scalars is connected on root pe
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_topo is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_z is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_u is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_v is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_tbot is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_ptem is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_shum is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_pbot is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_dens is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_pslv is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_o3 is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_rainc is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_rainl is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_snowc is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_snowl is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_lwdn is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swndr is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swvdr is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swndf is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swvdf is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swnet is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_bcph is connected using mesh with lbound        1 and with ubound        3
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_ocph is connected using mesh with lbound        1 and with ubound        3
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_dstwet is connected using mesh with lbound        1 and with ubound        4
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_dstdry is connected using mesh with lbound        1 and with ubound        4
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_co2prog is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_co2diag is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_ndep is connected using mesh with lbound        1 and with ubound        2
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_lightning is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport field = cpl_scalars is connected on root pe
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_anidr is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_avsdf is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_anidf is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_avsdr is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_lfrac is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Si_ifrac is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ofrac is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_tref is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_qref is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_t is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_t is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_fv is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_ram1 is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_snowh is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Si_snowh is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ssq is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_re is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ustar is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_u10 is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ugustOut is not connected
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_u10withGust is not connected
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_taux is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_tauy is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_lat is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_sen is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_lwup is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_evap is connected using mesh 
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Fall_flxdst is connected using mesh with lbound        1 and with ubound        4
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_ddvel is connected using mesh with lbound        1 and with ubound        5
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Fall_voc is connected using mesh with lbound        1 and with ubound        1
(atm_import_export:realize_fields) :  min_mod2med_areacor, max_mod2med_areacor    1.00000000000000       1.00000000000000    CAM
(atm_import_export:realize_fields) :  min_med2mod_areacor, max_med2mod_areacor    1.00000000000000       1.00000000000000    CAM
 using column value of co2vmr from boundary data as global volume mixing ratio
 using column value of ch4vmr from boundary data as global volume mixing ratio
 using column value of n2ovmr from boundary data as global volume mixing ratio
 using column value of f11vmr from boundary data as global volume mixing ratio
 using column value of f12vmr from boundary data as global volume mixing ratio
 using column value of soltsi from boundary data as global solar tsi
 checking Q_dten         -49
 checking CLDLIQ_dten         -49
 checking CLDICE_dten         -49
 checking NUMLIQ_dten         -49
 checking NUMICE_dten         -49
 checking RAINQM_dten         -49
 checking SNOWQM_dten         -49
 checking NUMRAI_dten         -49
 checking NUMSNO_dten         -49
 checking GRAUQM_dten         -49
 checking NUMGRA_dten         -49
 checking bc_a1_dten         -49
 checking bc_a4_dten         -49
 checking CFC11_dten         -49
 checking CFC12_dten         -49
 checking CH4_dten         -49
 checking CO2_dten         -49
 checking DMS_dten         -49
 checking dst_a1_dten         -49
 checking dst_a2_dten         -49
 checking dst_a3_dten         -49
 checking H2O2_dten         -49
 checking H2SO4_dten         -49
 checking N2O_dten         -49
 checking ncl_a1_dten         -49
 checking ncl_a2_dten         -49
 checking ncl_a3_dten         -49
 checking num_a1_dten         -49
 checking num_a2_dten         -49
 checking num_a3_dten         -49
 checking num_a4_dten         -49
 checking pom_a1_dten         -49
 checking pom_a4_dten         -49
 checking SO2_dten         -49
 checking so4_a1_dten         -49
 checking so4_a2_dten         -49
 checking so4_a3_dten         -49
 checking soa_a1_dten         -49
 checking soa_a2_dten         -49
 checking SOAE_dten         -49
 checking SOAG_dten         -49
 checking divT3d:         -49           0
 nstep, te        0   0.29967661041715514E+06   0.29967661041715514E+06   0.00000000000000000E+00   0.10996660353368856E+02   0.24465267040302927E-01
 chem_surfvals_set: ncdate=     19690215  co2vmr=  4.030277806349904E-008
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_ag_sol_was                
 emiss_ship                      emiss_res_tran                  
 READ_NEXT_TRCDATA emiss_ene_ind                   
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA num_bc_a4_anthro                
 READ_NEXT_TRCDATA num_bc_a4_bb                    
 READ_NEXT_TRCDATA num_pom_a4_anthro               
 READ_NEXT_TRCDATA num_pom_a4_bb                   
 READ_NEXT_TRCDATA emiss_ag_sol_was                
 emiss_shipping                  
 READ_NEXT_TRCDATA num_so4_a1_bb                   
 READ_NEXT_TRCDATA emiss_res_tran                  
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_ag_sol_was                
 emiss_shipping                  
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_res_tran                  
 READ_NEXT_TRCDATA emiss_volcanoes                 
 READ_NEXT_TRCDATA contvolcano                     
 READ_NEXT_TRCDATA contvolcano                     
 READ_NEXT_TRCDATA emiss_ene_ind                   
 READ_NEXT_TRCDATA emiss_ene_ind                   
 READ_NEXT_TRCDATA emiss_volcanoes                 
 READ_NEXT_TRCDATA emiss_volcanoes                 
 READ_NEXT_TRCDATA CH4_CHML                        
 READ_NEXT_TRCDATA O3                              
 OH                              NO3                             
 HO2                             HALONS                          
 READ_NEXT_TRCDATA ozone                           
 READ_NEXT_TRCDATA VOLC_MMR1                       
 VOLC_MMR2                       VOLC_MMR3                       
 VOLC_RAD_GEOM1                  VOLC_RAD_GEOM2                  
 VOLC_RAD_GEOM3                  VOLC_SAD                        
 using column value of co2vmr from boundary data as global volume mixing ratio
 using column value of ch4vmr from boundary data as global volume mixing ratio
 using column value of n2ovmr from boundary data as global volume mixing ratio
 using column value of f11vmr from boundary data as global volume mixing ratio
 using column value of f12vmr from boundary data as global volume mixing ratio
 using column value of soltsi from boundary data as global solar tsi
 checking Q_dten         -49
 checking CLDLIQ_dten         -49
 checking CLDICE_dten         -49
 checking NUMLIQ_dten         -49
 checking NUMICE_dten         -49
 checking RAINQM_dten         -49
 checking SNOWQM_dten         -49
 checking NUMRAI_dten         -49
 checking NUMSNO_dten         -49
 checking GRAUQM_dten         -49
 checking NUMGRA_dten         -49
 checking bc_a1_dten         -49
 checking bc_a4_dten         -49
 checking CFC11_dten         -49
 checking CFC12_dten         -49
 checking CH4_dten         -49
 checking CO2_dten         -49
 checking DMS_dten         -49
 checking dst_a1_dten         -49
 checking dst_a2_dten         -49
 checking dst_a3_dten         -49
 checking H2O2_dten         -49
 checking H2SO4_dten         -49
 checking N2O_dten         -49
 checking ncl_a1_dten         -49
 checking ncl_a2_dten         -49
 checking ncl_a3_dten         -49
 checking num_a1_dten         -49
 checking num_a2_dten         -49
 checking num_a3_dten         -49
 checking num_a4_dten         -49
 checking pom_a1_dten         -49
 checking pom_a4_dten         -49
 checking SO2_dten         -49
 checking so4_a1_dten         -49
 checking so4_a2_dten         -49
 checking so4_a3_dten         -49
 checking soa_a1_dten         -49
 checking soa_a2_dten         -49
 checking SOAE_dten         -49
 checking SOAG_dten         -49
 checking divT3d:         -49           0
 nstep, te        1   0.29968090467088361E+06   0.29967384249814897E+06  -0.35064383960421450E-02   0.10996788487872454E+02   0.24465267040302927E-01
WSHIST: writing time sample   0 to instantaneous h-file 1 DATE=1969/02/15 NCSEC=  1800
WSHIST: writing time sample   0 to accumulated h-file 1 DATE=1969/02/15 NCSEC=   900
 
 WSHIST: accumulated nhfil(           1 )=
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0a.1969-02-15-01800.nc
 WSHIST: instantaneous nhfil(           1 )=
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0i.1969-02-15-01800.nc
 Opening netcdf history files 
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0a.1969-02-15-01800.nc  
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0i.1969-02-15-01800.nc
 Opened file test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0i.1969-02-15-01800.nc
  to write         239
 Opened file test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0a.1969-02-15-01800.nc
  to write         240
 H_DEFINE: Successfully opened netcdf file 
 H_DEFINE: Successfully opened netcdf file 
 Creating new decomp: 1!1!!1!!d5!i4!                                  
 Creating new decomp: 1!32!1!!1!32!!d5!i4!                            
 Creating new decomp: 16!32!1536!!13826!32!!d5!i1!                    
 Creating new decomp: 1!33!1!!1!33!!d5!i4!                            
WSHIST: writing time sample   0 to instantaneous h-file 2 DATE=1969/02/15 NCSEC=  1800
WSHIST: writing time sample   0 to accumulated h-file 2 DATE=1969/02/15 NCSEC=   900
 
 WSHIST: accumulated nhfil(           2 )=
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h1a.1969-02-15-01800.nc
 WSHIST: instantaneous nhfil(           2 )=
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h1i.1969-02-15-01800.nc
 Opening instantaneous netcdf history file 
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h1i.1969-02-15-01800.nc
 Opened file test_scam_ATEX_cam_plot_scam_ifort_372.cam.h1i.1969-02-15-01800.nc
  to write         241
 H_DEFINE: Successfully opened netcdf file 
 nstep, te        2   0.29968536259289662E+06   0.29967813000730070E+06  -0.35910081911095636E-02   0.10996916424177630E+02   0.24465267040302927E-01
WSHIST: writing time sample   1 to instantaneous h-file 1 DATE=1969/02/15 NCSEC=  3600
WSHIST: writing time sample   1 to accumulated h-file 1 DATE=1969/02/15 NCSEC=  2700
 
WSHIST: writing time sample   1 to instantaneous h-file 2 DATE=1969/02/15 NCSEC=  3600
WSHIST: writing time sample   1 to accumulated h-file 2 DATE=1969/02/15 NCSEC=  2700
 
 nstep, te        3   0.29968887085160613E+06   0.29968195780221064E+06  -0.34323183954916492E-02   0.10997040368511939E+02   0.24465267040302927E-01
WSHIST: writing time sample   2 to instantaneous h-file 1 DATE=1969/02/15 NCSEC=  5400
WSHIST: writing time sample   2 to accumulated h-file 1 DATE=1969/02/15 NCSEC=  4500
 
WSHIST: writing time sample   2 to instantaneous h-file 2 DATE=1969/02/15 NCSEC=  5400
WSHIST: writing time sample   2 to accumulated h-file 2 DATE=1969/02/15 NCSEC=  4500
 
 nstep, te        4   0.29969352177708369E+06   0.29968284818303335E+06  -0.52993665663264300E-02   0.10997157288362386E+02   0.24465267040302927E-01
WSHIST: writing time sample   3 to instantaneous h-file 1 DATE=1969/02/15 NCSEC=  7200
WSHIST: writing time sample   3 to accumulated h-file 1 DATE=1969/02/15 NCSEC=  6300
 
WSHIST: writing time sample   3 to instantaneous h-file 2 DATE=1969/02/15 NCSEC=  7200
WSHIST: writing time sample   3 to accumulated h-file 2 DATE=1969/02/15 NCSEC=  6300
 
 nstep, te        5   0.29969177185648499E+06   0.29968720332767424E+06  -0.22682218104087392E-02   0.10997261538362572E+02   0.24465267040302927E-01
WSHIST: writing time sample   4 to instantaneous h-file 1 DATE=1969/02/15 NCSEC=  9000
WSHIST: writing time sample   4 to accumulated h-file 1 DATE=1969/02/15 NCSEC=  8100
 
WSHIST: writing time sample   4 to instantaneous h-file 2 DATE=1969/02/15 NCSEC=  9000
WSHIST: writing time sample   4 to accumulated h-file 2 DATE=1969/02/15 NCSEC=  8100
 
 nstep, te        6   0.29968714302339399E+06   0.29968272331208090E+06  -0.21943127187810524E-02   0.10997376162015126E+02   0.24465267040302927E-01
WSHIST: writing time sample   5 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 10800
WSHIST: writing time sample   5 to accumulated h-file 1 DATE=1969/02/15 NCSEC=  9900
 
WSHIST: writing time sample   5 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 10800
WSHIST: writing time sample   5 to accumulated h-file 2 DATE=1969/02/15 NCSEC=  9900
 
 nstep, te        7   0.29968565189663792E+06   0.29967777510001394E+06  -0.39106559866548705E-02   0.10997493299765695E+02   0.24465267040302927E-01
WSHIST: writing time sample   6 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 12600
WSHIST: writing time sample   6 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 11700
 
WSHIST: writing time sample   6 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 12600
WSHIST: writing time sample   6 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 11700
 
 nstep, te        8   0.29968533455886855E+06   0.29967788622511900E+06  -0.36978967833520390E-02   0.10997602575536604E+02   0.24465267040302927E-01
WSHIST: writing time sample   7 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 14400
WSHIST: writing time sample   7 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 13500
 
WSHIST: writing time sample   7 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 14400
WSHIST: writing time sample   7 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 13500
 
 nstep, te        9   0.29968366584739578E+06   0.29967723273201496E+06  -0.31938389307077692E-02   0.10997703306380780E+02   0.24465267040302927E-01
WSHIST: writing time sample   8 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 16200
WSHIST: writing time sample   8 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 15300
 
WSHIST: writing time sample   8 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 16200
WSHIST: writing time sample   8 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 15300
 
 nstep, te       10   0.29967702668826189E+06   0.29967217723082931E+06  -0.24075798947441151E-02   0.10997807234222417E+02   0.24465267040302927E-01
WSHIST: writing time sample   9 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 18000
WSHIST: writing time sample   9 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 17100
 
WSHIST: writing time sample   9 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 18000
WSHIST: writing time sample   9 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 17100
 
 nstep, te       11   0.29967179354416981E+06   0.29966530408238212E+06  -0.32217520246905908E-02   0.10997911481024767E+02   0.24465267040302927E-01
WSHIST: writing time sample  10 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 19800
WSHIST: writing time sample  10 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 18900
 
WSHIST: writing time sample  10 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 19800
WSHIST: writing time sample  10 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 18900
 
 nstep, te       12   0.29966789261032699E+06   0.29966143106427463E+06  -0.32078628874673146E-02   0.10998014507979445E+02   0.24465267040302927E-01
WSHIST: writing time sample  11 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 21600
WSHIST: writing time sample  11 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 20700
 
WSHIST: writing time sample  11 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 21600
WSHIST: writing time sample  11 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 20700
 
 nstep, te       13   0.29966262448425282E+06   0.29965691132493399E+06  -0.28362992268787177E-02   0.10998106524457775E+02   0.24465267040302927E-01
WSHIST: writing time sample  12 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 23400
WSHIST: writing time sample  12 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 22500
 
WSHIST: writing time sample  12 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 23400
WSHIST: writing time sample  12 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 22500
 
 nstep, te       14   0.29965662178423948E+06   0.29965247772929643E+06  -0.20573012904948687E-02   0.10998190356998363E+02   0.24465267040302927E-01
WSHIST: writing time sample  13 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 25200
WSHIST: writing time sample  13 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 24300
 
WSHIST: writing time sample  13 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 25200
WSHIST: writing time sample  13 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 24300
 
 nstep, te       15   0.29964985401115468E+06   0.29964626726112264E+06  -0.17806146499811876E-02   0.10998280371489544E+02   0.24465267040302927E-01
WSHIST: writing time sample  14 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 27000
WSHIST: writing time sample  14 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 26100
 
WSHIST: writing time sample  14 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 27000
WSHIST: writing time sample  14 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 26100
 
 nstep, te       16   0.29964297895166412E+06   0.29963688875888428E+06  -0.30234036722243656E-02   0.10998374753118529E+02   0.24465267040302927E-01
WSHIST: writing time sample  15 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 28800
WSHIST: writing time sample  15 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 27900
 
WSHIST: writing time sample  15 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 28800
WSHIST: writing time sample  15 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 27900
 
 nstep, te       17   0.29963324544286687E+06   0.29962912089893490E+06  -0.20475655100311322E-02   0.10998456229541874E+02   0.24465267040302927E-01
WSHIST: writing time sample  16 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 30600
WSHIST: writing time sample  16 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 29700
 
WSHIST: writing time sample  16 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 30600
WSHIST: writing time sample  16 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 29700
 
 nstep, te       18   0.29962856177027355E+06   0.29962375226766785E+06  -0.23875868052159166E-02   0.10998528648354524E+02   0.24465267040302927E-01
WSHIST: writing time sample  17 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 32400
WSHIST: writing time sample  17 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 31500
 
WSHIST: writing time sample  17 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 32400
WSHIST: writing time sample  17 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 31500
 
 nstep, te       19   0.29962160629012133E+06   0.29961909718610637E+06  -0.12455876377997486E-02   0.10998614103669988E+02   0.24465267040302927E-01
WSHIST: writing time sample  18 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 34200
WSHIST: writing time sample  18 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 33300
 
WSHIST: writing time sample  18 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 34200
WSHIST: writing time sample  18 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 33300
 
 nstep, te       20   0.29963369296093064E+06   0.29962762951331987E+06  -0.30100380839383637E-02   0.10998696556683022E+02   0.24465267040302927E-01
WSHIST: writing time sample  19 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 36000
WSHIST: writing time sample  19 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 35100
 
WSHIST: writing time sample  19 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 36000
WSHIST: writing time sample  19 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 35100
 
 nstep, te       21   0.29964349706141627E+06   0.29963950763275760E+06  -0.19804321571301148E-02   0.10998774753185590E+02   0.24465267040302927E-01
WSHIST: writing time sample  20 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 37800
WSHIST: writing time sample  20 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 36900
 
WSHIST: writing time sample  20 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 37800
WSHIST: writing time sample  20 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 36900
 
 nstep, te       22   0.29966547453883645E+06   0.29966128280651348E+06  -0.20808469913330481E-02   0.10998841995853956E+02   0.24465267040302927E-01
WSHIST: writing time sample  21 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 39600
WSHIST: writing time sample  21 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 38700
 
WSHIST: writing time sample  21 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 39600
WSHIST: writing time sample  21 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 38700
 
 nstep, te       23   0.29968456738107122E+06   0.29968296180025255E+06  -0.79703223296097401E-03   0.10998915058296546E+02   0.24465267040302927E-01
WSHIST: writing time sample  22 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 41400
WSHIST: writing time sample  22 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 40500
 
WSHIST: writing time sample  22 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 41400
WSHIST: writing time sample  22 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 40500
 
 nstep, te       24   0.29971679375144129E+06   0.29971186551303882E+06  -0.24464264365344304E-02   0.10998997473386137E+02   0.24465267040302927E-01
WSHIST: writing time sample  23 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 43200
WSHIST: writing time sample  23 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 42300
 
WSHIST: writing time sample  23 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 43200
WSHIST: writing time sample  23 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 42300
 
 nstep, te       25   0.29974880974731164E+06   0.29974381260213518E+06  -0.24806140802013164E-02   0.10999078711590569E+02   0.24465267040302927E-01
WSHIST: writing time sample  24 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 45000
WSHIST: writing time sample  24 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 44100
 
WSHIST: writing time sample  24 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 45000
WSHIST: writing time sample  24 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 44100
 
 nstep, te       26   0.29978779893808445E+06   0.29978263192610472E+06  -0.25649187097796667E-02   0.10999157066563708E+02   0.24465267040302927E-01
WSHIST: writing time sample  25 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 46800
WSHIST: writing time sample  25 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 45900
 
WSHIST: writing time sample  25 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 46800
WSHIST: writing time sample  25 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 45900
 
 nstep, te       27   0.29982414853118529E+06   0.29982129082059010E+06  -0.14185651751893161E-02   0.10999235102629944E+02   0.24465267040302927E-01
WSHIST: writing time sample  26 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 48600
WSHIST: writing time sample  26 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 47700
 
WSHIST: writing time sample  26 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 48600
WSHIST: writing time sample  26 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 47700
 
 nstep, te       28   0.29986173158441868E+06   0.29985794067011389E+06  -0.18817924827055613E-02   0.10999318162375179E+02   0.24465267040302927E-01
WSHIST: writing time sample  27 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 50400
WSHIST: writing time sample  27 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 49500
 
WSHIST: writing time sample  27 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 50400
WSHIST: writing time sample  27 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 49500
 
 nstep, te       29   0.29989950146537396E+06   0.29989497942763078E+06  -0.22447011953350081E-02   0.10999404264575904E+02   0.24465267040302927E-01
WSHIST: writing time sample  28 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 52200
WSHIST: writing time sample  28 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 51300
 
WSHIST: writing time sample  28 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 52200
WSHIST: writing time sample  28 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 51300
 
 nstep, te       30   0.29993940594177041E+06   0.29993359665701457E+06  -0.28836579892945195E-02   0.10999486887505883E+02   0.24465267040302927E-01
WSHIST: writing time sample  29 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 54000
WSHIST: writing time sample  29 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 53100
 
WSHIST: writing time sample  29 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 54000
WSHIST: writing time sample  29 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 53100
 
 nstep, te       31   0.29997758694318164E+06   0.29997297586390033E+06  -0.22888692512523720E-02   0.10999554866533281E+02   0.24465267040302927E-01
WSHIST: writing time sample  30 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 55800
WSHIST: writing time sample  30 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 54900
 
WSHIST: writing time sample  30 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 55800
WSHIST: writing time sample  30 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 54900
 
 nstep, te       32   0.30001083353433409E+06   0.30000901431684865E+06  -0.90302556438086876E-03   0.10999629968061384E+02   0.24465267040302927E-01
WSHIST: writing time sample  31 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 57600
WSHIST: writing time sample  31 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 56700
 
WSHIST: writing time sample  31 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 57600
WSHIST: writing time sample  31 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 56700
 
 nstep, te       33   0.30004650557297905E+06   0.30004218799449090E+06  -0.21431487147446169E-02   0.10999714798004513E+02   0.24465267040302927E-01
WSHIST: writing time sample  32 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 59400
WSHIST: writing time sample  32 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 58500
 
WSHIST: writing time sample  32 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 59400
WSHIST: writing time sample  32 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 58500
 
 nstep, te       34   0.30008086170106940E+06   0.30007655144483072E+06  -0.21394974478734395E-02   0.10999800297621022E+02   0.24465267040302927E-01
WSHIST: writing time sample  33 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 61200
WSHIST: writing time sample  33 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 60300
 
WSHIST: writing time sample  33 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 61200
WSHIST: writing time sample  33 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 60300
 
 nstep, te       35   0.30011794625541678E+06   0.30011062306889798E+06  -0.36350103328058043E-02   0.10999879386084409E+02   0.24465267040302927E-01
WSHIST: writing time sample  34 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 63000
WSHIST: writing time sample  34 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 62100
 
WSHIST: writing time sample  34 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 63000
WSHIST: writing time sample  34 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 62100
 
 nstep, te       36   0.30014048746474582E+06   0.30013832062299066E+06  -0.10755484876612577E-02   0.10999949036741684E+02   0.24465267040302927E-01
WSHIST: writing time sample  35 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 64800
WSHIST: writing time sample  35 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 63900
 
WSHIST: writing time sample  35 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 64800
WSHIST: writing time sample  35 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 63900
 
 nstep, te       37   0.30016391803334607E+06   0.30016095619770623E+06  -0.14701460399310267E-02   0.11000031786404145E+02   0.24465267040302927E-01
WSHIST: writing time sample  36 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 66600
WSHIST: writing time sample  36 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 65700
 
WSHIST: writing time sample  36 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 66600
WSHIST: writing time sample  36 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 65700
 
 nstep, te       38   0.30018295744862623E+06   0.30017724140169006E+06  -0.28372132113096546E-02   0.11000116107988875E+02   0.24465267040302927E-01
WSHIST: writing time sample  37 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 68400
WSHIST: writing time sample  37 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 67500
 
WSHIST: writing time sample  37 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 68400
WSHIST: writing time sample  37 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 67500
 
 nstep, te       39   0.30020072226748330E+06   0.30019588512362511E+06  -0.24009444550666123E-02   0.11000193893884951E+02   0.24465267040302927E-01
WSHIST: writing time sample  38 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 70200
WSHIST: writing time sample  38 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 69300
 
WSHIST: writing time sample  38 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 70200
WSHIST: writing time sample  38 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 69300
 
 nstep, te       40   0.30020188372691162E+06   0.30019753288431407E+06  -0.21595520863874132E-02   0.11000264604545759E+02   0.24465267040302927E-01
WSHIST: writing time sample  39 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 72000
WSHIST: writing time sample  39 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 71100
 
WSHIST: writing time sample  39 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 72000
WSHIST: writing time sample  39 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 71100
 
 nstep, te       41   0.30020205847133789E+06   0.30019855074142618E+06  -0.17410594266672758E-02   0.11000336951248050E+02   0.24465267040302927E-01
WSHIST: writing time sample  40 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 73800
WSHIST: writing time sample  40 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 72900
 
WSHIST: writing time sample  40 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 73800
WSHIST: writing time sample  40 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 72900
 
 nstep, te       42   0.30018608650967095E+06   0.30018160629847087E+06  -0.22237349068712198E-02   0.11000410817520899E+02   0.24465267040302927E-01
WSHIST: writing time sample  41 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 75600
WSHIST: writing time sample  41 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 74700
 
WSHIST: writing time sample  41 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 75600
WSHIST: writing time sample  41 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 74700
 
 nstep, te       43   0.30016669777659047E+06   0.30016501739527052E+06  -0.83404631716420827E-03   0.11000466469680333E+02   0.24465267040302927E-01
WSHIST: writing time sample  42 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 77400
WSHIST: writing time sample  42 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 76500
 
WSHIST: writing time sample  42 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 77400
WSHIST: writing time sample  42 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 76500
 
 nstep, te       44   0.30014879495912202E+06   0.30014557703264657E+06  -0.15971858129709816E-02   0.11000542213773752E+02   0.24465267040302927E-01
WSHIST: writing time sample  43 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 79200
WSHIST: writing time sample  43 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 78300
 
WSHIST: writing time sample  43 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 79200
WSHIST: writing time sample  43 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 78300
 
 nstep, te       45   0.30013290575277788E+06   0.30012761392842291E+06  -0.26265248902718808E-02   0.11000623770637509E+02   0.24465267040302927E-01
WSHIST: writing time sample  44 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 81000
WSHIST: writing time sample  44 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 80100
 
WSHIST: writing time sample  44 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 81000
WSHIST: writing time sample  44 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 80100
 
 nstep, te       46   0.30011834636827506E+06   0.30011158824132872E+06  -0.33542825444871534E-02   0.11000694619150785E+02   0.24465267040302927E-01
WSHIST: writing time sample  45 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 82800
WSHIST: writing time sample  45 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 81900
 
WSHIST: writing time sample  45 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 82800
WSHIST: writing time sample  45 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 81900
 
 nstep, te       47   0.30009552933250350E+06   0.30009603688058985E+06   0.25191201594543532E-03   0.11000735259375103E+02   0.24465267040302927E-01
WSHIST: writing time sample  46 to instantaneous h-file 1 DATE=1969/02/15 NCSEC= 84600
WSHIST: writing time sample  46 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 83700
 
WSHIST: writing time sample  46 to instantaneous h-file 2 DATE=1969/02/15 NCSEC= 84600
WSHIST: writing time sample  46 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 83700
 
 nstep, te       48   0.30007831737129798E+06   0.30007528389230306E+06  -0.15056008788374071E-02   0.11000806562201882E+02   0.24465267040302927E-01
 chem_surfvals_set: ncdate=     19690216  co2vmr=  4.030576755156892E-008
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_ag_sol_was                
 emiss_ship                      emiss_res_tran                  
 READ_NEXT_TRCDATA emiss_ene_ind                   
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA num_bc_a4_anthro                
 READ_NEXT_TRCDATA num_bc_a4_bb                    
 READ_NEXT_TRCDATA num_pom_a4_anthro               
 READ_NEXT_TRCDATA num_pom_a4_bb                   
 READ_NEXT_TRCDATA emiss_ag_sol_was                
 emiss_shipping                  
 READ_NEXT_TRCDATA num_so4_a1_bb                   
 READ_NEXT_TRCDATA emiss_res_tran                  
 READ_NEXT_TRCDATA emiss_anthro                    
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_ag_sol_was                
 emiss_shipping                  
 READ_NEXT_TRCDATA emiss_bb                        
 READ_NEXT_TRCDATA emiss_res_tran                  
 READ_NEXT_TRCDATA emiss_volcanoes                 
 READ_NEXT_TRCDATA emiss_ene_ind                   
 READ_NEXT_TRCDATA emiss_ene_ind                   
 READ_NEXT_TRCDATA emiss_volcanoes                 
 READ_NEXT_TRCDATA emiss_volcanoes                 
WSHIST: writing time sample  47 to instantaneous h-file 1 DATE=1969/02/16 NCSEC=     0
WSHIST: writing time sample  47 to accumulated h-file 1 DATE=1969/02/15 NCSEC= 85500
 
WSHIST: writing time sample  47 to instantaneous h-file 2 DATE=1969/02/16 NCSEC=     0
WSHIST: writing time sample  47 to accumulated h-file 2 DATE=1969/02/15 NCSEC= 85500
 
 nstep, te       49   0.30006253151238605E+06   0.30005832310778910E+06  -0.20887336130302704E-02   0.11000889920027287E+02   0.24465267040302927E-01
WSHIST: writing time sample  48 to instantaneous h-file 1 DATE=1969/02/16 NCSEC=  1800
WSHIST: writing time sample  48 to accumulated h-file 1 DATE=1969/02/16 NCSEC=   900
 
WSHIST: writing time sample  48 to instantaneous h-file 2 DATE=1969/02/16 NCSEC=  1800
WSHIST: writing time sample  48 to accumulated h-file 2 DATE=1969/02/16 NCSEC=   900
 
 nstep, te       50   0.30004793285254622E+06   0.30004071039895597E+06  -0.35846531562137114E-02   0.11000970510696353E+02   0.24465267040302927E-01
WSHIST: writing time sample  49 to instantaneous h-file 1 DATE=1969/02/16 NCSEC=  3600
WSHIST: writing time sample  49 to accumulated h-file 1 DATE=1969/02/16 NCSEC=  2700
 
WSHIST: writing time sample  49 to instantaneous h-file 2 DATE=1969/02/16 NCSEC=  3600
WSHIST: writing time sample  49 to accumulated h-file 2 DATE=1969/02/16 NCSEC=  2700
 
 nstep, te       51   0.30002570731620758E+06   0.30002397784203489E+06  -0.85837263154330218E-03   0.11000985661619728E+02   0.24465267040302927E-01
WSHIST: writing time sample  50 to instantaneous h-file 1 DATE=1969/02/16 NCSEC=  5400
WSHIST: writing time sample  50 to accumulated h-file 1 DATE=1969/02/16 NCSEC=  4500
 
WSHIST: writing time sample  50 to instantaneous h-file 2 DATE=1969/02/16 NCSEC=  5400
WSHIST: writing time sample  50 to accumulated h-file 2 DATE=1969/02/16 NCSEC=  4500
 
 nstep, te       52   0.30000753229437117E+06   0.30000853612755454E+06   0.49821973241475704E-03   0.11001046447628134E+02   0.24465267040302927E-01
WSHIST: writing time sample  51 to instantaneous h-file 1 DATE=1969/02/16 NCSEC=  7200
WSHIST: writing time sample  51 to accumulated h-file 1 DATE=1969/02/16 NCSEC=  6300
 
WSHIST: writing time sample  51 to instantaneous h-file 2 DATE=1969/02/16 NCSEC=  7200
WSHIST: writing time sample  51 to accumulated h-file 2 DATE=1969/02/16 NCSEC=  6300
 
 nstep, te       53   0.29999474285306624E+06   0.29999067737714283E+06  -0.20177507411540539E-02   0.11001128695075970E+02   0.24465267040302927E-01
WSHIST: writing time sample  52 to instantaneous h-file 1 DATE=1969/02/16 NCSEC=  9000
WSHIST: writing time sample  52 to accumulated h-file 1 DATE=1969/02/16 NCSEC=  8100
 
WSHIST: writing time sample  52 to instantaneous h-file 2 DATE=1969/02/16 NCSEC=  9000
WSHIST: writing time sample  52 to accumulated h-file 2 DATE=1969/02/16 NCSEC=  8100
 
 nstep, te       54   0.29998465294485813E+06   0.29997958512226969E+06  -0.25152091975262185E-02   0.11001214946255399E+02   0.24465267040302927E-01
WSHIST: writing time sample  53 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 10800
WSHIST: writing time sample  53 to accumulated h-file 1 DATE=1969/02/16 NCSEC=  9900
 
WSHIST: writing time sample  53 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 10800
WSHIST: writing time sample  53 to accumulated h-file 2 DATE=1969/02/16 NCSEC=  9900
 
 nstep, te       55   0.29997525032571290E+06   0.29996925784469844E+06  -0.29741064186537152E-02   0.11001287536930374E+02   0.24465267040302927E-01
WSHIST: writing time sample  54 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 12600
WSHIST: writing time sample  54 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 11700
 
WSHIST: writing time sample  54 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 12600
WSHIST: writing time sample  54 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 11700
 
 nstep, te       56   0.29996267829365458E+06   0.29995606404460705E+06  -0.32826963165693938E-02   0.11001279274843379E+02   0.24465267040302927E-01
WSHIST: writing time sample  55 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 14400
WSHIST: writing time sample  55 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 13500
 
WSHIST: writing time sample  55 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 14400
WSHIST: writing time sample  55 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 13500
 
 nstep, te       57   0.29994450758125959E+06   0.29994538122072653E+06   0.43359120897752451E-03   0.11001328340089403E+02   0.24465267040302927E-01
WSHIST: writing time sample  56 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 16200
WSHIST: writing time sample  56 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 15300
 
WSHIST: writing time sample  56 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 16200
WSHIST: writing time sample  56 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 15300
 
 nstep, te       58   0.29992962368516822E+06   0.29992780165723094E+06  -0.90427438154540621E-03   0.11001404863912535E+02   0.24465267040302927E-01
WSHIST: writing time sample  57 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 18000
WSHIST: writing time sample  57 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 17100
 
WSHIST: writing time sample  57 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 18000
WSHIST: writing time sample  57 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 17100
 
 nstep, te       59   0.29991743262517935E+06   0.29991321195916145E+06  -0.20947046630558010E-02   0.11001490389305411E+02   0.24465267040302927E-01
WSHIST: writing time sample  58 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 19800
WSHIST: writing time sample  58 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 18900
 
WSHIST: writing time sample  58 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 19800
WSHIST: writing time sample  58 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 18900
 
 nstep, te       60   0.29990724762152234E+06   0.29990048529496358E+06  -0.33560988024450224E-02   0.11001571609007524E+02   0.24465267040302927E-01
WSHIST: writing time sample  59 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 21600
WSHIST: writing time sample  59 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 20700
 
WSHIST: writing time sample  59 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 21600
WSHIST: writing time sample  59 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 20700
 
 nstep, te       61   0.29989478884056787E+06   0.29989051066604460E+06  -0.21232169739284056E-02   0.11001640311167156E+02   0.24465267040302927E-01
WSHIST: writing time sample  60 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 23400
WSHIST: writing time sample  60 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 22500
 
WSHIST: writing time sample  60 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 23400
WSHIST: writing time sample  60 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 22500
 
 nstep, te       62   0.29988129866113822E+06   0.29987662587982282E+06  -0.23190435676135948E-02   0.11001701712400829E+02   0.24465267040302927E-01
WSHIST: writing time sample  61 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 25200
WSHIST: writing time sample  61 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 24300
 
WSHIST: writing time sample  61 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 25200
WSHIST: writing time sample  61 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 24300
 
 nstep, te       63   0.29986517880050268E+06   0.29986302017251938E+06  -0.10712945886252809E-02   0.11001760924847806E+02   0.24465267040302927E-01
WSHIST: writing time sample  62 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 27000
WSHIST: writing time sample  62 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 26100
 
WSHIST: writing time sample  62 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 27000
WSHIST: writing time sample  62 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 26100
 
 nstep, te       64   0.29985482034493174E+06   0.29984959725497384E+06  -0.25921242999585210E-02   0.11001831467845010E+02   0.24465267040302927E-01
WSHIST: writing time sample  63 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 28800
WSHIST: writing time sample  63 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 27900
 
WSHIST: writing time sample  63 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 28800
WSHIST: writing time sample  63 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 27900
 
 nstep, te       65   0.29984197908696433E+06   0.29983891173349076E+06  -0.15222629048057053E-02   0.11001894126920810E+02   0.24465267040302927E-01
WSHIST: writing time sample  64 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 30600
WSHIST: writing time sample  64 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 29700
 
WSHIST: writing time sample  64 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 30600
WSHIST: writing time sample  64 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 29700
 
 nstep, te       66   0.29983479269210319E+06   0.29982521998988645E+06  -0.47507222726392278E-02   0.11001912973647302E+02   0.24465267040302927E-01
WSHIST: writing time sample  65 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 32400
WSHIST: writing time sample  65 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 31500
 
WSHIST: writing time sample  65 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 32400
WSHIST: writing time sample  65 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 31500
 
 nstep, te       67   0.29981208033442328E+06   0.29981742689634202E+06   0.26533805390540608E-02   0.11001916872501456E+02   0.24465267040302927E-01
WSHIST: writing time sample  66 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 34200
WSHIST: writing time sample  66 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 33300
 
WSHIST: writing time sample  66 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 34200
WSHIST: writing time sample  66 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 33300
 
 nstep, te       68   0.29981238155416463E+06   0.29981296276430506E+06   0.28844042524844133E-03   0.11001967285522818E+02   0.24465267040302927E-01
WSHIST: writing time sample  67 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 36000
WSHIST: writing time sample  67 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 35100
 
WSHIST: writing time sample  67 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 36000
WSHIST: writing time sample  67 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 35100
 
 nstep, te       69   0.29981656565755024E+06   0.29981410560563509E+06  -0.12208560096636076E-02   0.11002037331798455E+02   0.24465267040302927E-01
WSHIST: writing time sample  68 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 37800
WSHIST: writing time sample  68 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 36900
 
WSHIST: writing time sample  68 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 37800
WSHIST: writing time sample  68 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 36900
 
 nstep, te       70   0.29983558522036450E+06   0.29983145536363882E+06  -0.20495199193261305E-02   0.11002113535707963E+02   0.24465267040302927E-01
WSHIST: writing time sample  69 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 39600
WSHIST: writing time sample  69 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 38700
 
WSHIST: writing time sample  69 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 39600
WSHIST: writing time sample  69 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 38700
 
 nstep, te       71   0.29985591540273989E+06   0.29985062612981402E+06  -0.26248849262807440E-02   0.11002185995012983E+02   0.24465267040302927E-01
WSHIST: writing time sample  70 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 41400
WSHIST: writing time sample  70 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 40500
 
WSHIST: writing time sample  70 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 41400
WSHIST: writing time sample  70 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 40500
 
 nstep, te       72   0.29988581383870321E+06   0.29987886908736912E+06  -0.34464262728771543E-02   0.11002236530857020E+02   0.24465267040302927E-01
WSHIST: writing time sample  71 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 43200
WSHIST: writing time sample  71 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 42300
 
WSHIST: writing time sample  71 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 43200
WSHIST: writing time sample  71 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 42300
 
 nstep, te       73   0.29990530946725124E+06   0.29990775600452209E+06   0.12141239933019128E-02   0.11002264009307879E+02   0.24465267040302927E-01
WSHIST: writing time sample  72 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 45000
WSHIST: writing time sample  72 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 44100
 
WSHIST: writing time sample  72 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 45000
WSHIST: writing time sample  72 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 44100
 
 nstep, te       74   0.29993625136568840E+06   0.29993412830312439E+06  -0.10535895724198302E-02   0.11002328067171446E+02   0.24465267040302927E-01
WSHIST: writing time sample  73 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 46800
WSHIST: writing time sample  73 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 45900
 
WSHIST: writing time sample  73 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 46800
WSHIST: writing time sample  73 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 45900
 
 nstep, te       75   0.29996935573771835E+06   0.29996491597462143E+06  -0.22032612891279657E-02   0.11002390356065423E+02   0.24465267040302927E-01
WSHIST: writing time sample  74 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 48600
WSHIST: writing time sample  74 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 47700
 
WSHIST: writing time sample  74 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 48600
WSHIST: writing time sample  74 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 47700
 
 nstep, te       76   0.30000973750379984E+06   0.30000303214268415E+06  -0.33275635234536315E-02   0.11002441510813266E+02   0.24465267040302927E-01
WSHIST: writing time sample  75 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 50400
WSHIST: writing time sample  75 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 49500
 
WSHIST: writing time sample  75 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 50400
WSHIST: writing time sample  75 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 49500
 
 nstep, te       77   0.30004264165757142E+06   0.30004324776779080E+06   0.30078333332788802E-03   0.11002492619626345E+02   0.24465267040302927E-01
WSHIST: writing time sample  76 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 52200
WSHIST: writing time sample  76 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 51300
 
WSHIST: writing time sample  76 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 52200
WSHIST: writing time sample  76 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 51300
 
 nstep, te       78   0.30007584002403123E+06   0.30007495829491515E+06  -0.43755693806795911E-03   0.11002562613042159E+02   0.24465267040302927E-01
WSHIST: writing time sample  77 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 54000
WSHIST: writing time sample  77 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 53100
 
WSHIST: writing time sample  77 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 54000
WSHIST: writing time sample  77 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 53100
 
 nstep, te       79   0.30011268678450421E+06   0.30010784232364874E+06  -0.24040436920650179E-02   0.11002625480851426E+02   0.24465267040302927E-01
WSHIST: writing time sample  78 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 55800
WSHIST: writing time sample  78 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 54900
 
WSHIST: writing time sample  78 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 55800
WSHIST: writing time sample  78 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 54900
 
 nstep, te       80   0.30014761917672568E+06   0.30014412470589369E+06  -0.17341056025884122E-02   0.11002695851645626E+02   0.24465267040302927E-01
WSHIST: writing time sample  79 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 57600
WSHIST: writing time sample  79 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 56700
 
WSHIST: writing time sample  79 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 57600
WSHIST: writing time sample  79 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 56700
 
 nstep, te       81   0.30018028037734999E+06   0.30017839254797559E+06  -0.93681650862941120E-03   0.11002754640084049E+02   0.24465267040302927E-01
WSHIST: writing time sample  80 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 59400
WSHIST: writing time sample  80 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 58500
 
WSHIST: writing time sample  80 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 59400
WSHIST: writing time sample  80 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 58500
 
 nstep, te       82   0.30021469982706156E+06   0.30020561291593884E+06  -0.45092765023576229E-02   0.11002785222039176E+02   0.24465267040302927E-01
WSHIST: writing time sample  81 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 61200
WSHIST: writing time sample  81 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 60300
 
WSHIST: writing time sample  81 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 61200
WSHIST: writing time sample  81 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 60300
 
 nstep, te       83   0.30023853944215202E+06   0.30024025894718408E+06   0.85328122390765197E-03   0.11002831935439644E+02   0.24465267040302927E-01
WSHIST: writing time sample  82 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 63000
WSHIST: writing time sample  82 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 62100
 
WSHIST: writing time sample  82 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 63000
WSHIST: writing time sample  82 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 62100
 
 nstep, te       84   0.30025798302738613E+06   0.30025682707801007E+06  -0.57362028169942881E-03   0.11002909152466595E+02   0.24465267040302927E-01
WSHIST: writing time sample  83 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 64800
WSHIST: writing time sample  83 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 63900
 
WSHIST: writing time sample  83 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 64800
WSHIST: writing time sample  83 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 63900
 
 nstep, te       85   0.30027921830143331E+06   0.30027623705247341E+06  -0.14793843411009791E-02   0.11002982737071811E+02   0.24465267040302927E-01
WSHIST: writing time sample  84 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 66600
WSHIST: writing time sample  84 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 65700
 
WSHIST: writing time sample  84 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 66600
WSHIST: writing time sample  84 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 65700
 
 nstep, te       86   0.30028921893281583E+06   0.30028513134555949E+06  -0.20283719184856063E-02   0.11003038850083296E+02   0.24465267040302927E-01
WSHIST: writing time sample  85 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 68400
WSHIST: writing time sample  85 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 67500
 
WSHIST: writing time sample  85 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 68400
WSHIST: writing time sample  85 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 67500
 
 nstep, te       87   0.30029728691503371E+06   0.30029437632126600E+06  -0.14443101573020204E-02   0.11003081381551112E+02   0.24465267040302927E-01
WSHIST: writing time sample  86 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 70200
WSHIST: writing time sample  86 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 69300
 
WSHIST: writing time sample  86 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 70200
WSHIST: writing time sample  86 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 69300
 
 nstep, te       88   0.30029389896696311E+06   0.30029408800532087E+06   0.93805315659748991E-04   0.11003115684611824E+02   0.24465267040302927E-01
WSHIST: writing time sample  87 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 72000
WSHIST: writing time sample  87 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 71100
 
WSHIST: writing time sample  87 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 72000
WSHIST: writing time sample  87 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 71100
 
 nstep, te       89   0.30029187862385873E+06   0.30029038427402580E+06  -0.74153007371606440E-03   0.11003141563204682E+02   0.24465267040302927E-01
WSHIST: writing time sample  88 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 73800
WSHIST: writing time sample  88 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 72900
 
WSHIST: writing time sample  88 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 73800
WSHIST: writing time sample  88 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 72900
 
 nstep, te       90   0.30027147919520002E+06   0.30026997285348125E+06  -0.74747896515887740E-03   0.11003167305288713E+02   0.24465267040302927E-01
WSHIST: writing time sample  89 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 75600
WSHIST: writing time sample  89 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 74700
 
WSHIST: writing time sample  89 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 75600
WSHIST: writing time sample  89 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 74700
 
 nstep, te       91   0.30025049802684487E+06   0.30024917037732230E+06  -0.65880646057170833E-03   0.11003194244232480E+02   0.24465267040302927E-01
WSHIST: writing time sample  90 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 77400
WSHIST: writing time sample  90 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 76500
 
WSHIST: writing time sample  90 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 77400
WSHIST: writing time sample  90 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 76500
 
 nstep, te       92   0.30022869558355166E+06   0.30022653210831026E+06  -0.10735572133276547E-02   0.11003223087710557E+02   0.24465267040302927E-01
WSHIST: writing time sample  91 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 79200
WSHIST: writing time sample  91 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 78300
 
WSHIST: writing time sample  91 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 79200
WSHIST: writing time sample  91 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 78300
 
 nstep, te       93   0.30020757588556322E+06   0.30020413222481799E+06  -0.17088058363837386E-02   0.11003245995521876E+02   0.24465267040302927E-01
WSHIST: writing time sample  92 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 81000
WSHIST: writing time sample  92 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 80100
 
WSHIST: writing time sample  92 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 81000
WSHIST: writing time sample  92 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 80100
 
 nstep, te       94   0.30018437598762126E+06   0.30018397630331665E+06  -0.19832972322470014E-03   0.11003287628309403E+02   0.24465267040302927E-01
WSHIST: writing time sample  93 to instantaneous h-file 1 DATE=1969/02/16 NCSEC= 82800
WSHIST: writing time sample  93 to accumulated h-file 1 DATE=1969/02/16 NCSEC= 81900
 
WSHIST: writing time sample  93 to instantaneous h-file 2 DATE=1969/02/16 NCSEC= 82800
WSHIST: writing time sample  93 to accumulated h-file 2 DATE=1969/02/16 NCSEC= 81900
 
 WRAPUP: nf_close(           1 )=
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0i.1969-02-15-01800.nc
 WRAPUP: nf_close(           1 )=
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h0a.1969-02-15-01800.nc
    Primary history file
    Output at NSTEP     =         94
    Number of time samples on this file =         94
    Model Day           =       1.96
---------------------------------------
 WRAPUP: nf_close(           2 )=
 test_scam_ATEX_cam_plot_scam_ifort_372.cam.h1i.1969-02-15-01800.nc
    Auxiliary history file number            1
    Output at NSTEP     =         94
    Number of time samples on this file =         94
    Model Day           =       1.96
---------------------------------------
 QNEG3 from D_P_COUPLING:num_a1 Min. mixing ratio violated at       367 points. Worst =    0.1E-04
 QNEG3 from D_P_COUPLING:num_a2 Min. mixing ratio violated at       686 points. Worst =    0.1E-04
 QNEG3 from D_P_COUPLING:num_a3 Min. mixing ratio violated at       209 points. Worst =    0.1E-04
 QNEG3 from D_P_COUPLING:num_a4 Min. mixing ratio violated at       419 points. Worst =    0.1E-04
 QNEG3 from ndrop:num_a2 Min. mixing ratio violated at        29 points. Worst =    0.1E-04
 QNEG3 from ndrop:num_a3 Min. mixing ratio violated at        19 points. Worst =    0.1E-04
 QNEG3 from ndrop:num_a4 Min. mixing ratio violated at        24 points. Worst =    0.1E-04
 QNEG3 from cldwat:num_a2 Min. mixing ratio violated at        29 points. Worst =    0.1E-04
 QNEG3 from cldwat:num_a3 Min. mixing ratio violated at        19 points. Worst =    0.1E-04
 QNEG3 from cldwat:num_a4 Min. mixing ratio violated at        24 points. Worst =    0.1E-04
 QNEG3 from aero_water_uptake:num_a1 Min. mixing ratio violated at       873 points. Worst =    0.1E-04
 QNEG3 from aero_water_uptake:num_a2 Min. mixing ratio violated at      1838 points. Worst =    0.1E-04
 QNEG3 from aero_water_uptake:num_a3 Min. mixing ratio violated at        84 points. Worst =    0.1E-04
 QNEG3 from aero_water_uptake:num_a4 Min. mixing ratio violated at      1916 points. Worst =    0.1E-04
 QNEG3 from aero_wetdep_tend:num_a2 Min. mixing ratio violated at        79 points. Worst =    0.1E-04
 QNEG3 from aero_wetdep_tend:num_a3 Min. mixing ratio violated at        78 points. Worst =    0.1E-04
 QNEG3 from aero_wetdep_tend:num_a4 Min. mixing ratio violated at        72 points. Worst =    0.1E-04
 QNEG3 from aero_model_drydep:num_a1 Min. mixing ratio violated at       949 points. Worst =    0.1E-04
 QNEG3 from aero_model_drydep:num_a2 Min. mixing ratio violated at      1372 points. Worst =    0.1E-04
 QNEG3 from aero_model_drydep:num_a3 Min. mixing ratio violated at       713 points. Worst =    0.1E-04
 QNEG3 from aero_model_drydep:num_a4 Min. mixing ratio violated at       949 points. Worst =    0.1E-04
 QNEG3 from Gravity wave drag:num_a1 Min. mixing ratio violated at        34 points. Worst =    0.1E-04
 QNEG3 from Gravity wave drag:num_a2 Min. mixing ratio violated at        63 points. Worst =    0.1E-04
 QNEG3 from Gravity wave drag:num_a3 Min. mixing ratio violated at        19 points. Worst =    0.1E-04
 QNEG3 from Gravity wave drag:num_a4 Min. mixing ratio violated at        39 points. Worst =    0.1E-04
 nstep, te       95   0.30016180665660562E+06   0.30016066414539539E+06  -0.56693021131691264E-03   0.11003327593049081E+02   0.24465267040302927E-01


Number of completed timesteps:    94
Time step     95 partially done to provide convectively adjusted and time filtered values for history tape.
  
 ******* END OF MODEL RUN *******
(atm_comp_nuopc) -------------------------------------------------------------------------
(atm_comp_nuopc) CAM: end of main integration loop
(atm_comp_nuopc) -------------------------------------------------------------------------