iceberg/input/available_diagnostics.log

 Total Nb of available Diagnostics: ndiagt=   236
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  Num  |<-Name->|Levs|  mate |<- code ->|<--  Units   -->|<- Tile (max=80c)         
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     1 |SDIAG1  |  1 |       |SM      L1|user-defined    |User-Defined   Surface   Diagnostic  #1
     2 |SDIAG2  |  1 |       |SM      L1|user-defined    |User-Defined   Surface   Diagnostic  #2
     3 |SDIAG3  |  1 |       |SM      L1|user-defined    |User-Defined   Surface   Diagnostic  #3
     4 |SDIAG4  |  1 |       |SM      L1|user-defined    |User-Defined   Surface   Diagnostic  #4
     5 |SDIAG5  |  1 |       |SM      L1|user-defined    |User-Defined   Surface   Diagnostic  #5
     6 |SDIAG6  |  1 |       |SM      L1|user-defined    |User-Defined   Surface   Diagnostic  #6
     7 |SDIAG7  |  1 |       |SU      L1|user-defined    |User-Defined U.pt Surface Diagnostic #7
     8 |SDIAG8  |  1 |       |SV      L1|user-defined    |User-Defined V.pt Surface Diagnostic #8
     9 |SDIAG9  |  1 |    10 |UU      L1|user-defined    |User-Defined U.vector Surface Diag.  #9
    10 |SDIAG10 |  1 |     9 |VV      L1|user-defined    |User-Defined V.vector Surface Diag. #10
    11 |UDIAG1  |350 |       |SM      MR|user-defined    |User-Defined Model-Level Diagnostic  #1
    12 |UDIAG2  |350 |       |SM      MR|user-defined    |User-Defined Model-Level Diagnostic  #2
    13 |UDIAG3  |350 |       |SMR     MR|user-defined    |User-Defined Model-Level Diagnostic  #3
    14 |UDIAG4  |350 |       |SMR     MR|user-defined    |User-Defined Model-Level Diagnostic  #4
    15 |UDIAG5  |350 |       |SU      MR|user-defined    |User-Defined U.pt Model-Level Diag.  #5
    16 |UDIAG6  |350 |       |SV      MR|user-defined    |User-Defined V.pt Model-Level Diag.  #6
    17 |UDIAG7  |350 |    18 |UUR     MR|user-defined    |User-Defined U.vector Model-Lev Diag.#7
    18 |UDIAG8  |350 |    17 |VVR     MR|user-defined    |User-Defined V.vector Model-Lev Diag.#8
    19 |UDIAG9  |350 |       |SM      ML|user-defined    |User-Defined Phys-Level  Diagnostic  #9
    20 |UDIAG10 |350 |       |SM      ML|user-defined    |User-Defined Phys-Level  Diagnostic #10
    21 |SDIAGC  |  1 |    22 |SM  C   L1|user-defined    |User-Defined Counted Surface Diagnostic
    22 |SDIAGCC |  1 |       |SM      L1|count           |User-Defined Surface Diagnostic Counter
    23 |ETAN    |  1 |       |SM      M1|m               |Surface Height Anomaly
    24 |ETANSQ  |  1 |       |SM P    M1|m^2             |Square of Surface Height Anomaly
    25 |DETADT2 |  1 |       |SM      M1|m^2/s^2         |Square of Surface Height Anomaly Tendency
    26 |THETA   |350 |       |SMR     MR|degC            |Potential Temperature
    27 |SALT    |350 |       |SMR     MR|psu             |Salinity
    28 |RELHUM  |350 |       |SMR     MR|percent         |Relative Humidity
    29 |SALTanom|350 |       |SMR     MR|psu             |Salt anomaly (=SALT-35; g/kg)
    30 |UVEL    |350 |    31 |UUR     MR|m/s             |Zonal Component of Velocity (m/s)
    31 |VVEL    |350 |    30 |VVR     MR|m/s             |Meridional Component of Velocity (m/s)
    32 |WVEL    |350 |       |WM      LR|m/s             |Vertical Component of Velocity (r_units/s)
    33 |THETASQ |350 |       |SMRP    MR|degC^2          |Square of Potential Temperature
    34 |SALTSQ  |350 |       |SMRP    MR|(psu)^2         |Square of Salinity
    35 |SALTSQan|350 |       |SMRP    MR|(psu)^2         |Square of Salt anomaly (=(SALT-35)^2 (g^2/kg^2)
    36 |UVELSQ  |350 |    37 |UURP    MR|m^2/s^2         |Square of Zonal Comp of Velocity (m^2/s^2)
    37 |VVELSQ  |350 |    36 |VVRP    MR|m^2/s^2         |Square of Meridional Comp of Velocity (m^2/s^2)
    38 |WVELSQ  |350 |       |WM P    LR|m^2/s^2         |Square of Vertical Comp of Velocity
    39 |UE_VEL_C|350 |    40 |UMR     MR|m/s             |Eastward Velocity (m/s) (cell center)
    40 |VN_VEL_C|350 |    39 |VMR     MR|m/s             |Northward Velocity (m/s) (cell center)
    41 |UV_VEL_C|350 |    41 |UMR     MR|m^2/s^2         |Product of horizontal Comp of velocity (cell center)
    42 |UV_VEL_Z|350 |    42 |UZR     MR|m^2/s^2         |Meridional Transport of Zonal Momentum (m^2/s^2)
    43 |WU_VEL  |350 |       |WU      LR|m.m/s^2         |Vertical Transport of Zonal Momentum
    44 |WV_VEL  |350 |       |WV      LR|m.m/s^2         |Vertical Transport of Meridional Momentum
    45 |UVELMASS|350 |    46 |UUr     MR|m/s             |Zonal Mass-Weighted Comp of Velocity (m/s)
    46 |VVELMASS|350 |    45 |VVr     MR|m/s             |Meridional Mass-Weighted Comp of Velocity (m/s)
    47 |WVELMASS|350 |       |WM      LR|m/s             |Vertical Mass-Weighted Comp of Velocity
    48 |PhiVEL  |350 |    45 |SMR P   MR|m^2/s           |Horizontal Velocity Potential (m^2/s)
    49 |PsiVEL  |350 |    48 |SZ  P   MR|m.m^2/s         |Horizontal Velocity Stream-Function
    50 |UTHMASS |350 |    51 |UUr     MR|degC.m/s        |Zonal Mass-Weight Transp of Pot Temp
    51 |VTHMASS |350 |    50 |VVr     MR|degC.m/s        |Meridional Mass-Weight Transp of Pot Temp
    52 |WTHMASS |350 |       |WM      LR|degC.m/s        |Vertical Mass-Weight Transp of Pot Temp (K.m/s)
    53 |USLTMASS|350 |    54 |UUr     MR|psu.m/s         |Zonal Mass-Weight Transp of Salinity
    54 |VSLTMASS|350 |    53 |VVr     MR|psu.m/s         |Meridional Mass-Weight Transp of Salinity
    55 |WSLTMASS|350 |       |WM      LR|psu.m/s         |Vertical Mass-Weight Transp of Salinity
    56 |UVELTH  |350 |    57 |UUR     MR|degC.m/s        |Zonal Transport of Pot Temp
    57 |VVELTH  |350 |    56 |VVR     MR|degC.m/s        |Meridional Transport of Pot Temp
    58 |WVELTH  |350 |       |WM      LR|degC.m/s        |Vertical Transport of Pot Temp
    59 |UVELSLT |350 |    60 |UUR     MR|psu.m/s         |Zonal Transport of Salinity
    60 |VVELSLT |350 |    59 |VVR     MR|psu.m/s         |Meridional Transport of Salinity
    61 |WVELSLT |350 |       |WM      LR|psu.m/s         |Vertical Transport of Salinity
    62 |UVELPHI |350 |    63 |UUr     MR|m^3/s^3         |Zonal Mass-Weight Transp of Pressure Pot.(p/rho) Anomaly
    63 |VVELPHI |350 |    62 |VVr     MR|m^3/s^3         |Merid. Mass-Weight Transp of Pressure Pot.(p/rho) Anomaly
    64 |RHOAnoma|350 |       |SMR     MR|kg/m^3          |Density Anomaly (=Rho-rhoConst)
    65 |RHOANOSQ|350 |       |SMRP    MR|kg^2/m^6        |Square of Density Anomaly (=(Rho-rhoConst)^2)
    66 |URHOMASS|350 |    67 |UUr     MR|kg/m^2/s        |Zonal Transport of Density
    67 |VRHOMASS|350 |    66 |VVr     MR|kg/m^2/s        |Meridional Transport of Density
    68 |WRHOMASS|350 |       |WM      LR|kg/m^2/s        |Vertical Transport of Density
    69 |WdRHO_P |350 |       |WM      LR|kg/m^2/s        |Vertical velocity times delta^k(Rho)_at-const-P
    70 |WdRHOdP |350 |       |WM      LR|kg/m^2/s        |Vertical velocity times delta^k(Rho)_at-const-T,S
    71 |PHIHYD  |350 |       |SMR     MR|m^2/s^2         |Hydrostatic Pressure Pot.(p/rho) Anomaly
    72 |PHIHYDSQ|350 |       |SMRP    MR|m^4/s^4         |Square of Hyd. Pressure Pot.(p/rho) Anomaly
    73 |PHIBOT  |  1 |       |SM      M1|m^2/s^2         |Bottom Pressure Pot.(p/rho) Anomaly
    74 |PHIBOTSQ|  1 |       |SM P    M1|m^4/s^4         |Square of Bottom Pressure Pot.(p/rho) Anomaly
    75 |PHI_SURF|  1 |       |SM      M1|m^2/s^2         |Surface Dynamical Pressure Pot.(p/rho)
    76 |PHIHYDcR|350 |       |SMR     MR|m^2/s^2         |Hydrostatic Pressure Pot.(p/rho) Anomaly @ const r
    77 |PHI_NH  |350 |       |SMR     MR|m^2/s^2         |Non-Hydrostatic Pressure Pot.(p/rho)
    78 |MXLDEPTH|  1 |       |SM      M1|m               |Mixed-Layer Depth (>0)
    79 |DRHODR  |350 |       |SM      LR|kg/m^4          |Stratification: d.Sigma/dr (kg/m3/r_unit)
    80 |CONVADJ |350 |       |SMR     LR|fraction        |Convective Adjustment Index [0-1]
    81 |oceTAUX |  1 |    82 |UU      U1|N/m^2           |zonal surface wind stress, >0 increases uVel
    82 |oceTAUY |  1 |    81 |VV      U1|N/m^2           |meridional surf. wind stress, >0 increases vVel
    83 |atmPload|  1 |       |SM      U1|Pa              |Atmospheric pressure loading
    84 |sIceLoad|  1 |       |SM      U1|kg/m^2          |sea-ice loading (in Mass of ice+snow / area unit)
    85 |oceFWflx|  1 |       |SM      U1|kg/m^2/s        |net surface Fresh-Water flux into the ocean (+=down), >0 decreases salinity
    86 |oceSflux|  1 |       |SM      U1|g/m^2/s         |net surface Salt flux into the ocean (+=down), >0 increases salinity
    87 |oceQnet |  1 |       |SM      U1|W/m^2           |net surface heat flux into the ocean (+=down), >0 increases theta
    88 |oceQsw  |  1 |       |SM      U1|W/m^2           |net Short-Wave radiation (+=down), >0 increases theta
    89 |oceFreez|  1 |       |SM      U1|W/m^2           |heating from freezing of sea-water (allowFreezing=T)
    90 |TRELAX  |  1 |       |SM      U1|W/m^2           |surface temperature relaxation, >0 increases theta
    91 |SRELAX  |  1 |       |SM      U1|g/m^2/s         |surface salinity relaxation, >0 increases salt
    92 |surForcT|  1 |       |SM      U1|W/m^2           |model surface forcing for Temperature, >0 increases theta
    93 |surForcS|  1 |       |SM      U1|g/m^2/s         |model surface forcing for Salinity, >0 increases salinity
    94 |TFLUX   |  1 |       |SM      U1|W/m^2           |total heat flux (match heat-content variations), >0 increases theta
    95 |SFLUX   |  1 |       |SM      U1|g/m^2/s         |total salt flux (match salt-content variations), >0 increases salt
    96 |RCENTER |350 |       |SM      MR|m               |Cell-Center Height
    97 |RSURF   |  1 |       |SM      M1|m               |Surface Height
    98 |TOTUTEND|350 |    99 |UUR     MR|m/s/day         |Tendency of Zonal Component of Velocity
    99 |TOTVTEND|350 |    98 |VVR     MR|m/s/day         |Tendency of Meridional Component of Velocity
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  Num  |<-Name->|Levs|  mate |<- code ->|<--  Units   -->|<- Tile (max=80c)         
------------------------------------------------------------------------------------
   100 |TOTTTEND|350 |       |SMR     MR|degC/day        |Tendency of Potential Temperature
   101 |TOTSTEND|350 |       |SMR     MR|psu/day         |Tendency of Salinity
   102 |MoistCor|350 |       |SM      MR|W/m^2           |Heating correction due to moist thermodynamics
   103 |gT_Forc |350 |       |SMR     MR|degC/s          |Potential Temp. forcing tendency
   104 |gS_Forc |350 |       |SMR     MR|psu/s           |Salinity forcing tendency
   105 |AB_gT   |350 |       |SMR     MR|degC/s          |Potential Temp. tendency from Adams-Bashforth
   106 |AB_gS   |350 |       |SMR     MR|psu/s           |Salinity tendency from Adams-Bashforth
   107 |gTinAB  |350 |       |SMR     MR|degC/s          |Potential Temp. tendency going in Adams-Bashforth
   108 |gSinAB  |350 |       |SMR     MR|psu/s           |Salinity tendency going in Adams-Bashforth
   109 |AB_gU   |350 |   110 |UUR     MR|m/s^2           |U momentum tendency from Adams-Bashforth
   110 |AB_gV   |350 |   109 |VVR     MR|m/s^2           |V momentum tendency from Adams-Bashforth
   111 |AB_gW   |350 |       |WM      LR|m/s^2           |W momentum tendency from Adams-Bashforth
   112 |ADVr_TH |350 |       |WM      LR|degC.m^3/s      |Vertical   Advective Flux of Pot.Temperature
   113 |ADVx_TH |350 |   114 |UU      MR|degC.m^3/s      |Zonal      Advective Flux of Pot.Temperature
   114 |ADVy_TH |350 |   113 |VV      MR|degC.m^3/s      |Meridional Advective Flux of Pot.Temperature
   115 |DFrE_TH |350 |       |WM      LR|degC.m^3/s      |Vertical Diffusive Flux of Pot.Temperature (Explicit part)
   116 |DFxE_TH |350 |   117 |UU      MR|degC.m^3/s      |Zonal      Diffusive Flux of Pot.Temperature
   117 |DFyE_TH |350 |   116 |VV      MR|degC.m^3/s      |Meridional Diffusive Flux of Pot.Temperature
   118 |DFrI_TH |350 |       |WM      LR|degC.m^3/s      |Vertical Diffusive Flux of Pot.Temperature (Implicit part)
   119 |ADVr_SLT|350 |       |WM      LR|psu.m^3/s       |Vertical   Advective Flux of Salinity
   120 |ADVx_SLT|350 |   121 |UU      MR|psu.m^3/s       |Zonal      Advective Flux of Salinity
   121 |ADVy_SLT|350 |   120 |VV      MR|psu.m^3/s       |Meridional Advective Flux of Salinity
   122 |DFrE_SLT|350 |       |WM      LR|psu.m^3/s       |Vertical Diffusive Flux of Salinity    (Explicit part)
   123 |DFxE_SLT|350 |   124 |UU      MR|psu.m^3/s       |Zonal      Diffusive Flux of Salinity
   124 |DFyE_SLT|350 |   123 |VV      MR|psu.m^3/s       |Meridional Diffusive Flux of Salinity
   125 |DFrI_SLT|350 |       |WM      LR|psu.m^3/s       |Vertical Diffusive Flux of Salinity    (Implicit part)
   126 |SALTFILL|350 |       |SM      MR|psu.m^3/s       |Filling of Negative Values of Salinity
   127 |VISCAHZ |350 |       |SZ      MR|m^2/s           |Harmonic Visc Coefficient (m2/s) (Zeta Pt)
   128 |VISCA4Z |350 |       |SZ      MR|m^4/s           |Biharmonic Visc Coefficient (m4/s) (Zeta Pt)
   129 |VISCAHD |350 |       |SM      MR|m^2/s           |Harmonic Viscosity Coefficient (m2/s) (Div Pt)
   130 |VISCA4D |350 |       |SM      MR|m^4/s           |Biharmonic Viscosity Coefficient (m4/s) (Div Pt)
   131 |VISCAHW |350 |       |WM      LR|m^2/s           |Harmonic Viscosity Coefficient (m2/s) (W Pt)
   132 |VISCA4W |350 |       |WM      LR|m^4/s           |Biharmonic Viscosity Coefficient (m4/s) (W Pt)
   133 |VAHZMAX |350 |       |SZ      MR|m^2/s           |CFL-MAX Harm Visc Coefficient (m2/s) (Zeta Pt)
   134 |VA4ZMAX |350 |       |SZ      MR|m^4/s           |CFL-MAX Biharm Visc Coefficient (m4/s) (Zeta Pt)
   135 |VAHDMAX |350 |       |SM      MR|m^2/s           |CFL-MAX Harm Visc Coefficient (m2/s) (Div Pt)
   136 |VA4DMAX |350 |       |SM      MR|m^4/s           |CFL-MAX Biharm Visc Coefficient (m4/s) (Div Pt)
   137 |VAHZMIN |350 |       |SZ      MR|m^2/s           |RE-MIN Harm Visc Coefficient (m2/s) (Zeta Pt)
   138 |VA4ZMIN |350 |       |SZ      MR|m^4/s           |RE-MIN Biharm Visc Coefficient (m4/s) (Zeta Pt)
   139 |VAHDMIN |350 |       |SM      MR|m^2/s           |RE-MIN Harm Visc Coefficient (m2/s) (Div Pt)
   140 |VA4DMIN |350 |       |SM      MR|m^4/s           |RE-MIN Biharm Visc Coefficient (m4/s) (Div Pt)
   141 |VAHZLTH |350 |       |SZ      MR|m^2/s           |Leith Harm Visc Coefficient (m2/s) (Zeta Pt)
   142 |VA4ZLTH |350 |       |SZ      MR|m^4/s           |Leith Biharm Visc Coefficient (m4/s) (Zeta Pt)
   143 |VAHDLTH |350 |       |SM      MR|m^2/s           |Leith Harm Visc Coefficient (m2/s) (Div Pt)
   144 |VA4DLTH |350 |       |SM      MR|m^4/s           |Leith Biharm Visc Coefficient (m4/s) (Div Pt)
   145 |VAHZLTHD|350 |       |SZ      MR|m^2/s           |LeithD Harm Visc Coefficient (m2/s) (Zeta Pt)
   146 |VA4ZLTHD|350 |       |SZ      MR|m^4/s           |LeithD Biharm Visc Coefficient (m4/s) (Zeta Pt)
   147 |VAHDLTHD|350 |       |SM      MR|m^2/s           |LeithD Harm Visc Coefficient (m2/s) (Div Pt)
   148 |VA4DLTHD|350 |       |SM      MR|m^4/s           |LeithD Biharm Visc Coefficient (m4/s) (Div Pt)
   149 |VAHZSMAG|350 |       |SZ      MR|m^2/s           |Smagorinsky Harm Visc Coefficient (m2/s) (Zeta Pt)
   150 |VA4ZSMAG|350 |       |SZ      MR|m^4/s           |Smagorinsky Biharm Visc Coeff. (m4/s) (Zeta Pt)
   151 |VAHDSMAG|350 |       |SM      MR|m^2/s           |Smagorinsky Harm Visc Coefficient (m2/s) (Div Pt)
   152 |VA4DSMAG|350 |       |SM      MR|m^4/s           |Smagorinsky Biharm Visc Coeff. (m4/s) (Div Pt)
   153 |momKE   |350 |       |SMR     MR|m^2/s^2         |Kinetic Energy (in momentum Eq.)
   154 |momHDiv |350 |       |SMR     MR|s^-1            |Horizontal Divergence (in momentum Eq.)
   155 |momVort3|350 |       |SZR     MR|s^-1            |3rd component (vertical) of Vorticity
   156 |Strain  |350 |       |SZR     MR|s^-1            |Horizontal Strain of Horizontal Velocities
   157 |Tension |350 |       |SMR     MR|s^-1            |Horizontal Tension of Horizontal Velocities
   158 |UBotDrag|350 |   159 |UUR     MR|m/s^2           |U momentum tendency from Bottom Drag
   159 |VBotDrag|350 |   158 |VVR     MR|m/s^2           |V momentum tendency from Bottom Drag
   160 |USidDrag|350 |   161 |UUR     MR|m/s^2           |U momentum tendency from Side Drag
   161 |VSidDrag|350 |   160 |VVR     MR|m/s^2           |V momentum tendency from Side Drag
   162 |Um_Diss |350 |   163 |UUR     MR|m/s^2           |U momentum tendency from Dissipation
   163 |Vm_Diss |350 |   162 |VVR     MR|m/s^2           |V momentum tendency from Dissipation
   164 |Um_Advec|350 |   165 |UUR     MR|m/s^2           |U momentum tendency from Advection terms
   165 |Vm_Advec|350 |   164 |VVR     MR|m/s^2           |V momentum tendency from Advection terms
   166 |Um_Cori |350 |   167 |UUR     MR|m/s^2           |U momentum tendency from Coriolis term
   167 |Vm_Cori |350 |   166 |VVR     MR|m/s^2           |V momentum tendency from Coriolis term
   168 |Um_dPHdx|350 |   169 |UUR     MR|m/s^2           |U momentum tendency from Hydrostatic Pressure grad
   169 |Vm_dPHdy|350 |   168 |VVR     MR|m/s^2           |V momentum tendency from Hydrostatic Pressure grad
   170 |Um_Ext  |350 |   171 |UUR     MR|m/s^2           |U momentum tendency from external forcing
   171 |Vm_Ext  |350 |   170 |VVR     MR|m/s^2           |V momentum tendency from external forcing
   172 |Um_AdvZ3|350 |   173 |UUR     MR|m/s^2           |U momentum tendency from Vorticity Advection
   173 |Vm_AdvZ3|350 |   172 |VVR     MR|m/s^2           |V momentum tendency from Vorticity Advection
   174 |Um_AdvRe|350 |   175 |UUR     MR|m/s^2           |U momentum tendency from vertical Advection (Explicit part)
   175 |Vm_AdvRe|350 |   174 |VVR     MR|m/s^2           |V momentum tendency from vertical Advection (Explicit part)
   176 |Wm_Diss |350 |       |WMr     LR|m/s^2           |W momentum tendency from Dissipation
   177 |Wm_Advec|350 |       |WMr     LR|m/s^2           |W momentum tendency from Advection terms
   178 |WSidDrag|350 |       |WMr     LR|m/s^2           |Vertical momentum tendency from Side Drag
   179 |ADVx_Um |350 |   180 |UM      MR|m^4/s^2         |Zonal      Advective Flux of U momentum
   180 |ADVy_Um |350 |   179 |VZ      MR|m^4/s^2         |Meridional Advective Flux of U momentum
   181 |ADVrE_Um|350 |       |WU      LR|m^4/s^2         |Vertical   Advective Flux of U momentum (Explicit part)
   182 |ADVx_Vm |350 |   183 |UZ      MR|m^4/s^2         |Zonal      Advective Flux of V momentum
   183 |ADVy_Vm |350 |   182 |VM      MR|m^4/s^2         |Meridional Advective Flux of V momentum
   184 |ADVrE_Vm|350 |       |WV      LR|m^4/s^2         |Vertical   Advective Flux of V momentum (Explicit part)
   185 |VISCx_Um|350 |   186 |UM      MR|m^4/s^2         |Zonal      Viscous Flux of U momentum
   186 |VISCy_Um|350 |   185 |VZ      MR|m^4/s^2         |Meridional Viscous Flux of U momentum
   187 |VISrE_Um|350 |       |WU      LR|m^4/s^2         |Vertical   Viscous Flux of U momentum (Explicit part)
   188 |VISrI_Um|350 |       |WU      LR|m^4/s^2         |Vertical   Viscous Flux of U momentum (Implicit part)
   189 |VISCx_Vm|350 |   190 |UZ      MR|m^4/s^2         |Zonal      Viscous Flux of V momentum
   190 |VISCy_Vm|350 |   189 |VM      MR|m^4/s^2         |Meridional Viscous Flux of V momentum
   191 |VISrE_Vm|350 |       |WV      LR|m^4/s^2         |Vertical   Viscous Flux of V momentum (Explicit part)
   192 |VISrI_Vm|350 |       |WV      LR|m^4/s^2         |Vertical   Viscous Flux of V momentum (Implicit part)
   193 |TRAC01  |350 |       |SMR     MR|kg/kg           |plume1 concentration
   194 |UTRAC01 |350 |   195 |UUr     MR|kg/kg.m/s       |Zonal Mass-Weighted Transp of plume1
   195 |VTRAC01 |350 |   194 |VVr     MR|kg/kg.m/s       |Merid Mass-Weighted Transp of plume1
   196 |WTRAC01 |350 |       |WM      MR|kg/kg.m/s       |Vert  Mass-Weighted Transp of plume1
   197 |ForcTr01|350 |       |SMR     MR|kg/kg/s         |plume1 forcing tendency
   198 |AB_gTr01|350 |       |SMR     MR|kg/kg/s         |plume1 tendency from Adams-Bashforth
   199 |ADVrTr01|350 |       |WM      LR|kg/kg.m^3/s     |Vertical   Advective Flux of plume1
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  Num  |<-Name->|Levs|  mate |<- code ->|<--  Units   -->|<- Tile (max=80c)         
------------------------------------------------------------------------------------
   200 |ADVxTr01|350 |   201 |UU      MR|kg/kg.m^3/s     |Zonal      Advective Flux of plume1
   201 |ADVyTr01|350 |   200 |VV      MR|kg/kg.m^3/s     |Meridional Advective Flux of plume1
   202 |DFrETr01|350 |       |WM      LR|kg/kg.m^3/s     |Vertical Diffusive Flux of plume1 (Explicit part)
   203 |DFxETr01|350 |   204 |UU      MR|kg/kg.m^3/s     |Zonal      Diffusive Flux of plume1
   204 |DFyETr01|350 |   203 |VV      MR|kg/kg.m^3/s     |Meridional Diffusive Flux of plume1
   205 |DFrITr01|350 |       |WM      LR|kg/kg.m^3/s     |Vertical Diffusive Flux of plume1 (Implicit part)
   206 |TRAC02  |350 |       |SMR     MR|kg/kg           |plume2 concentration
   207 |UTRAC02 |350 |   208 |UUr     MR|kg/kg.m/s       |Zonal Mass-Weighted Transp of plume2
   208 |VTRAC02 |350 |   207 |VVr     MR|kg/kg.m/s       |Merid Mass-Weighted Transp of plume2
   209 |WTRAC02 |350 |       |WM      MR|kg/kg.m/s       |Vert  Mass-Weighted Transp of plume2
   210 |ForcTr02|350 |       |SMR     MR|kg/kg/s         |plume2 forcing tendency
   211 |AB_gTr02|350 |       |SMR     MR|kg/kg/s         |plume2 tendency from Adams-Bashforth
   212 |ADVrTr02|350 |       |WM      LR|kg/kg.m^3/s     |Vertical   Advective Flux of plume2
   213 |ADVxTr02|350 |   214 |UU      MR|kg/kg.m^3/s     |Zonal      Advective Flux of plume2
   214 |ADVyTr02|350 |   213 |VV      MR|kg/kg.m^3/s     |Meridional Advective Flux of plume2
   215 |DFrETr02|350 |       |WM      LR|kg/kg.m^3/s     |Vertical Diffusive Flux of plume2 (Explicit part)
   216 |DFxETr02|350 |   217 |UU      MR|kg/kg.m^3/s     |Zonal      Diffusive Flux of plume2
   217 |DFyETr02|350 |   216 |VV      MR|kg/kg.m^3/s     |Meridional Diffusive Flux of plume2
   218 |DFrITr02|350 |       |WM      LR|kg/kg.m^3/s     |Vertical Diffusive Flux of plume2 (Implicit part)
   219 |Add2EmP |  1 |       |SM      U1|kg/m^2/s        |additional EmP from salt relaxation
   220 |SHIfwFlx|  1 |       |SM      L1|kg/m^2/s        |Ice shelf fresh water flux (positive upward)
   221 |SHIhtFlx|  1 |       |SM      L1|W/m^2           |Ice shelf heat flux  (positive upward)
   222 |SHIICFfw|  1 |       |SM      L1|kg/m^2/s        |total ice shelf and front FW flux (+ upward)
   223 |SHIICFht|  1 |       |SM      L1|W/m^2           |total ice shelf and ice front heat flux (+ upward)
   224 |ICFfwFlx|350 |       |SM      MR|kg/m^2/s        |Ice front freshwater flux (+ve increases ocean salt)
   225 |ICFhtFlx|350 |       |SM      MR|W/m^2           |Ice front heat flux  (+ve cools ocean)
   226 |SHIUDrag|350 |   227 |UU      MR|m/s^2           |U momentum tendency from ice shelf drag
   227 |SHIVDrag|350 |   226 |VV      MR|m/s^2           |V momentum tendency from ice shelf drag
   228 |SHIForcT|  1 |       |SM      L1|W/m^2           |Ice shelf forcing for theta, >0 increases theta
   229 |SHIForcS|  1 |       |SM      L1|g/m^2/s         |Ice shelf forcing for salt, >0 increases salt
   230 |ICFForcT|350 |       |SM      MR|W/m^2           |Ice front forcing for theta, >0 increases theta
   231 |ICFForcS|350 |       |SM      MR|g/m^2/s         |Ice front forcing for salt, >0 increases salt
   232 |SHIICFFo|  1 |       |SM      L1|g/m^2/s         |total SHI and ICF forcing for S, >0 increases salt
   233 |SHIgammT|  1 |       |SM      L1|m/s             |Ice shelf exchange coefficient for theta
   234 |SHIgammS|  1 |       |SM      L1|m/s             |Ice shelf exchange coefficient for salt
   235 |SHIuStar|  1 |       |SM      L1|m/s             |Friction velocity at bottom of ice shelf
   236 |SHI_mass|  1 |       |SM      L1|kg/m^2          |dynamic ice shelf mass for surface load anomaly
------------------------------------------------------------------------------------
  Num  |<-Name->|Levs|  mate |<- code ->|<--  Units   -->|<- Tile (max=80c)         
------------------------------------------------------------------------------------
1	dcarroll	1.1	Total Nb of available Diagnostics: ndiagt= 236
2			------------------------------------------------------------------------------------
3			Num \|<-Name->\|Levs\| mate \|<- code ->\|<-- Units -->\|<- Tile (max=80c)
4			------------------------------------------------------------------------------------
5			1 \|SDIAG1 \| 1 \| \|SM L1\|user-defined \|User-Defined Surface Diagnostic #1
6			2 \|SDIAG2 \| 1 \| \|SM L1\|user-defined \|User-Defined Surface Diagnostic #2
7			3 \|SDIAG3 \| 1 \| \|SM L1\|user-defined \|User-Defined Surface Diagnostic #3
8			4 \|SDIAG4 \| 1 \| \|SM L1\|user-defined \|User-Defined Surface Diagnostic #4
9			5 \|SDIAG5 \| 1 \| \|SM L1\|user-defined \|User-Defined Surface Diagnostic #5
10			6 \|SDIAG6 \| 1 \| \|SM L1\|user-defined \|User-Defined Surface Diagnostic #6
11			7 \|SDIAG7 \| 1 \| \|SU L1\|user-defined \|User-Defined U.pt Surface Diagnostic #7
12			8 \|SDIAG8 \| 1 \| \|SV L1\|user-defined \|User-Defined V.pt Surface Diagnostic #8
13			9 \|SDIAG9 \| 1 \| 10 \|UU L1\|user-defined \|User-Defined U.vector Surface Diag. #9
14			10 \|SDIAG10 \| 1 \| 9 \|VV L1\|user-defined \|User-Defined V.vector Surface Diag. #10
15			11 \|UDIAG1 \|350 \| \|SM MR\|user-defined \|User-Defined Model-Level Diagnostic #1
16			12 \|UDIAG2 \|350 \| \|SM MR\|user-defined \|User-Defined Model-Level Diagnostic #2
17			13 \|UDIAG3 \|350 \| \|SMR MR\|user-defined \|User-Defined Model-Level Diagnostic #3
18			14 \|UDIAG4 \|350 \| \|SMR MR\|user-defined \|User-Defined Model-Level Diagnostic #4
19			15 \|UDIAG5 \|350 \| \|SU MR\|user-defined \|User-Defined U.pt Model-Level Diag. #5
20			16 \|UDIAG6 \|350 \| \|SV MR\|user-defined \|User-Defined V.pt Model-Level Diag. #6
21			17 \|UDIAG7 \|350 \| 18 \|UUR MR\|user-defined \|User-Defined U.vector Model-Lev Diag.#7
22			18 \|UDIAG8 \|350 \| 17 \|VVR MR\|user-defined \|User-Defined V.vector Model-Lev Diag.#8
23			19 \|UDIAG9 \|350 \| \|SM ML\|user-defined \|User-Defined Phys-Level Diagnostic #9
24			20 \|UDIAG10 \|350 \| \|SM ML\|user-defined \|User-Defined Phys-Level Diagnostic #10
25			21 \|SDIAGC \| 1 \| 22 \|SM C L1\|user-defined \|User-Defined Counted Surface Diagnostic
26			22 \|SDIAGCC \| 1 \| \|SM L1\|count \|User-Defined Surface Diagnostic Counter
27			23 \|ETAN \| 1 \| \|SM M1\|m \|Surface Height Anomaly
28			24 \|ETANSQ \| 1 \| \|SM P M1\|m^2 \|Square of Surface Height Anomaly
29			25 \|DETADT2 \| 1 \| \|SM M1\|m^2/s^2 \|Square of Surface Height Anomaly Tendency
30			26 \|THETA \|350 \| \|SMR MR\|degC \|Potential Temperature
31			27 \|SALT \|350 \| \|SMR MR\|psu \|Salinity
32			28 \|RELHUM \|350 \| \|SMR MR\|percent \|Relative Humidity
33			29 \|SALTanom\|350 \| \|SMR MR\|psu \|Salt anomaly (=SALT-35; g/kg)
34			30 \|UVEL \|350 \| 31 \|UUR MR\|m/s \|Zonal Component of Velocity (m/s)
35			31 \|VVEL \|350 \| 30 \|VVR MR\|m/s \|Meridional Component of Velocity (m/s)
36			32 \|WVEL \|350 \| \|WM LR\|m/s \|Vertical Component of Velocity (r_units/s)
37			33 \|THETASQ \|350 \| \|SMRP MR\|degC^2 \|Square of Potential Temperature
38			34 \|SALTSQ \|350 \| \|SMRP MR\|(psu)^2 \|Square of Salinity
39			35 \|SALTSQan\|350 \| \|SMRP MR\|(psu)^2 \|Square of Salt anomaly (=(SALT-35)^2 (g^2/kg^2)
40			36 \|UVELSQ \|350 \| 37 \|UURP MR\|m^2/s^2 \|Square of Zonal Comp of Velocity (m^2/s^2)
41			37 \|VVELSQ \|350 \| 36 \|VVRP MR\|m^2/s^2 \|Square of Meridional Comp of Velocity (m^2/s^2)
42			38 \|WVELSQ \|350 \| \|WM P LR\|m^2/s^2 \|Square of Vertical Comp of Velocity
43			39 \|UE_VEL_C\|350 \| 40 \|UMR MR\|m/s \|Eastward Velocity (m/s) (cell center)
44			40 \|VN_VEL_C\|350 \| 39 \|VMR MR\|m/s \|Northward Velocity (m/s) (cell center)
45			41 \|UV_VEL_C\|350 \| 41 \|UMR MR\|m^2/s^2 \|Product of horizontal Comp of velocity (cell center)
46			42 \|UV_VEL_Z\|350 \| 42 \|UZR MR\|m^2/s^2 \|Meridional Transport of Zonal Momentum (m^2/s^2)
47			43 \|WU_VEL \|350 \| \|WU LR\|m.m/s^2 \|Vertical Transport of Zonal Momentum
48			44 \|WV_VEL \|350 \| \|WV LR\|m.m/s^2 \|Vertical Transport of Meridional Momentum
49			45 \|UVELMASS\|350 \| 46 \|UUr MR\|m/s \|Zonal Mass-Weighted Comp of Velocity (m/s)
50			46 \|VVELMASS\|350 \| 45 \|VVr MR\|m/s \|Meridional Mass-Weighted Comp of Velocity (m/s)
51			47 \|WVELMASS\|350 \| \|WM LR\|m/s \|Vertical Mass-Weighted Comp of Velocity
52			48 \|PhiVEL \|350 \| 45 \|SMR P MR\|m^2/s \|Horizontal Velocity Potential (m^2/s)
53			49 \|PsiVEL \|350 \| 48 \|SZ P MR\|m.m^2/s \|Horizontal Velocity Stream-Function
54			50 \|UTHMASS \|350 \| 51 \|UUr MR\|degC.m/s \|Zonal Mass-Weight Transp of Pot Temp
55			51 \|VTHMASS \|350 \| 50 \|VVr MR\|degC.m/s \|Meridional Mass-Weight Transp of Pot Temp
56			52 \|WTHMASS \|350 \| \|WM LR\|degC.m/s \|Vertical Mass-Weight Transp of Pot Temp (K.m/s)
57			53 \|USLTMASS\|350 \| 54 \|UUr MR\|psu.m/s \|Zonal Mass-Weight Transp of Salinity
58			54 \|VSLTMASS\|350 \| 53 \|VVr MR\|psu.m/s \|Meridional Mass-Weight Transp of Salinity
59			55 \|WSLTMASS\|350 \| \|WM LR\|psu.m/s \|Vertical Mass-Weight Transp of Salinity
60			56 \|UVELTH \|350 \| 57 \|UUR MR\|degC.m/s \|Zonal Transport of Pot Temp
61			57 \|VVELTH \|350 \| 56 \|VVR MR\|degC.m/s \|Meridional Transport of Pot Temp
62			58 \|WVELTH \|350 \| \|WM LR\|degC.m/s \|Vertical Transport of Pot Temp
63			59 \|UVELSLT \|350 \| 60 \|UUR MR\|psu.m/s \|Zonal Transport of Salinity
64			60 \|VVELSLT \|350 \| 59 \|VVR MR\|psu.m/s \|Meridional Transport of Salinity
65			61 \|WVELSLT \|350 \| \|WM LR\|psu.m/s \|Vertical Transport of Salinity
66			62 \|UVELPHI \|350 \| 63 \|UUr MR\|m^3/s^3 \|Zonal Mass-Weight Transp of Pressure Pot.(p/rho) Anomaly
67			63 \|VVELPHI \|350 \| 62 \|VVr MR\|m^3/s^3 \|Merid. Mass-Weight Transp of Pressure Pot.(p/rho) Anomaly
68			64 \|RHOAnoma\|350 \| \|SMR MR\|kg/m^3 \|Density Anomaly (=Rho-rhoConst)
69			65 \|RHOANOSQ\|350 \| \|SMRP MR\|kg^2/m^6 \|Square of Density Anomaly (=(Rho-rhoConst)^2)
70			66 \|URHOMASS\|350 \| 67 \|UUr MR\|kg/m^2/s \|Zonal Transport of Density
71			67 \|VRHOMASS\|350 \| 66 \|VVr MR\|kg/m^2/s \|Meridional Transport of Density
72			68 \|WRHOMASS\|350 \| \|WM LR\|kg/m^2/s \|Vertical Transport of Density
73			69 \|WdRHO_P \|350 \| \|WM LR\|kg/m^2/s \|Vertical velocity times delta^k(Rho)_at-const-P
74			70 \|WdRHOdP \|350 \| \|WM LR\|kg/m^2/s \|Vertical velocity times delta^k(Rho)_at-const-T,S
75			71 \|PHIHYD \|350 \| \|SMR MR\|m^2/s^2 \|Hydrostatic Pressure Pot.(p/rho) Anomaly
76			72 \|PHIHYDSQ\|350 \| \|SMRP MR\|m^4/s^4 \|Square of Hyd. Pressure Pot.(p/rho) Anomaly
77			73 \|PHIBOT \| 1 \| \|SM M1\|m^2/s^2 \|Bottom Pressure Pot.(p/rho) Anomaly
78			74 \|PHIBOTSQ\| 1 \| \|SM P M1\|m^4/s^4 \|Square of Bottom Pressure Pot.(p/rho) Anomaly
79			75 \|PHI_SURF\| 1 \| \|SM M1\|m^2/s^2 \|Surface Dynamical Pressure Pot.(p/rho)
80			76 \|PHIHYDcR\|350 \| \|SMR MR\|m^2/s^2 \|Hydrostatic Pressure Pot.(p/rho) Anomaly @ const r
81			77 \|PHI_NH \|350 \| \|SMR MR\|m^2/s^2 \|Non-Hydrostatic Pressure Pot.(p/rho)
82			78 \|MXLDEPTH\| 1 \| \|SM M1\|m \|Mixed-Layer Depth (>0)
83			79 \|DRHODR \|350 \| \|SM LR\|kg/m^4 \|Stratification: d.Sigma/dr (kg/m3/r_unit)
84			80 \|CONVADJ \|350 \| \|SMR LR\|fraction \|Convective Adjustment Index [0-1]
85			81 \|oceTAUX \| 1 \| 82 \|UU U1\|N/m^2 \|zonal surface wind stress, >0 increases uVel
86			82 \|oceTAUY \| 1 \| 81 \|VV U1\|N/m^2 \|meridional surf. wind stress, >0 increases vVel
87			83 \|atmPload\| 1 \| \|SM U1\|Pa \|Atmospheric pressure loading
88			84 \|sIceLoad\| 1 \| \|SM U1\|kg/m^2 \|sea-ice loading (in Mass of ice+snow / area unit)
89			85 \|oceFWflx\| 1 \| \|SM U1\|kg/m^2/s \|net surface Fresh-Water flux into the ocean (+=down), >0 decreases salinity
90			86 \|oceSflux\| 1 \| \|SM U1\|g/m^2/s \|net surface Salt flux into the ocean (+=down), >0 increases salinity
91			87 \|oceQnet \| 1 \| \|SM U1\|W/m^2 \|net surface heat flux into the ocean (+=down), >0 increases theta
92			88 \|oceQsw \| 1 \| \|SM U1\|W/m^2 \|net Short-Wave radiation (+=down), >0 increases theta
93			89 \|oceFreez\| 1 \| \|SM U1\|W/m^2 \|heating from freezing of sea-water (allowFreezing=T)
94			90 \|TRELAX \| 1 \| \|SM U1\|W/m^2 \|surface temperature relaxation, >0 increases theta
95			91 \|SRELAX \| 1 \| \|SM U1\|g/m^2/s \|surface salinity relaxation, >0 increases salt
96			92 \|surForcT\| 1 \| \|SM U1\|W/m^2 \|model surface forcing for Temperature, >0 increases theta
97			93 \|surForcS\| 1 \| \|SM U1\|g/m^2/s \|model surface forcing for Salinity, >0 increases salinity
98			94 \|TFLUX \| 1 \| \|SM U1\|W/m^2 \|total heat flux (match heat-content variations), >0 increases theta
99			95 \|SFLUX \| 1 \| \|SM U1\|g/m^2/s \|total salt flux (match salt-content variations), >0 increases salt
100			96 \|RCENTER \|350 \| \|SM MR\|m \|Cell-Center Height
101			97 \|RSURF \| 1 \| \|SM M1\|m \|Surface Height
102			98 \|TOTUTEND\|350 \| 99 \|UUR MR\|m/s/day \|Tendency of Zonal Component of Velocity
103			99 \|TOTVTEND\|350 \| 98 \|VVR MR\|m/s/day \|Tendency of Meridional Component of Velocity
104			------------------------------------------------------------------------------------
105			Num \|<-Name->\|Levs\| mate \|<- code ->\|<-- Units -->\|<- Tile (max=80c)
106			------------------------------------------------------------------------------------
107			100 \|TOTTTEND\|350 \| \|SMR MR\|degC/day \|Tendency of Potential Temperature
108			101 \|TOTSTEND\|350 \| \|SMR MR\|psu/day \|Tendency of Salinity
109			102 \|MoistCor\|350 \| \|SM MR\|W/m^2 \|Heating correction due to moist thermodynamics
110			103 \|gT_Forc \|350 \| \|SMR MR\|degC/s \|Potential Temp. forcing tendency
111			104 \|gS_Forc \|350 \| \|SMR MR\|psu/s \|Salinity forcing tendency
112			105 \|AB_gT \|350 \| \|SMR MR\|degC/s \|Potential Temp. tendency from Adams-Bashforth
113			106 \|AB_gS \|350 \| \|SMR MR\|psu/s \|Salinity tendency from Adams-Bashforth
114			107 \|gTinAB \|350 \| \|SMR MR\|degC/s \|Potential Temp. tendency going in Adams-Bashforth
115			108 \|gSinAB \|350 \| \|SMR MR\|psu/s \|Salinity tendency going in Adams-Bashforth
116			109 \|AB_gU \|350 \| 110 \|UUR MR\|m/s^2 \|U momentum tendency from Adams-Bashforth
117			110 \|AB_gV \|350 \| 109 \|VVR MR\|m/s^2 \|V momentum tendency from Adams-Bashforth
118			111 \|AB_gW \|350 \| \|WM LR\|m/s^2 \|W momentum tendency from Adams-Bashforth
119			112 \|ADVr_TH \|350 \| \|WM LR\|degC.m^3/s \|Vertical Advective Flux of Pot.Temperature
120			113 \|ADVx_TH \|350 \| 114 \|UU MR\|degC.m^3/s \|Zonal Advective Flux of Pot.Temperature
121			114 \|ADVy_TH \|350 \| 113 \|VV MR\|degC.m^3/s \|Meridional Advective Flux of Pot.Temperature
122			115 \|DFrE_TH \|350 \| \|WM LR\|degC.m^3/s \|Vertical Diffusive Flux of Pot.Temperature (Explicit part)
123			116 \|DFxE_TH \|350 \| 117 \|UU MR\|degC.m^3/s \|Zonal Diffusive Flux of Pot.Temperature
124			117 \|DFyE_TH \|350 \| 116 \|VV MR\|degC.m^3/s \|Meridional Diffusive Flux of Pot.Temperature
125			118 \|DFrI_TH \|350 \| \|WM LR\|degC.m^3/s \|Vertical Diffusive Flux of Pot.Temperature (Implicit part)
126			119 \|ADVr_SLT\|350 \| \|WM LR\|psu.m^3/s \|Vertical Advective Flux of Salinity
127			120 \|ADVx_SLT\|350 \| 121 \|UU MR\|psu.m^3/s \|Zonal Advective Flux of Salinity
128			121 \|ADVy_SLT\|350 \| 120 \|VV MR\|psu.m^3/s \|Meridional Advective Flux of Salinity
129			122 \|DFrE_SLT\|350 \| \|WM LR\|psu.m^3/s \|Vertical Diffusive Flux of Salinity (Explicit part)
130			123 \|DFxE_SLT\|350 \| 124 \|UU MR\|psu.m^3/s \|Zonal Diffusive Flux of Salinity
131			124 \|DFyE_SLT\|350 \| 123 \|VV MR\|psu.m^3/s \|Meridional Diffusive Flux of Salinity
132			125 \|DFrI_SLT\|350 \| \|WM LR\|psu.m^3/s \|Vertical Diffusive Flux of Salinity (Implicit part)
133			126 \|SALTFILL\|350 \| \|SM MR\|psu.m^3/s \|Filling of Negative Values of Salinity
134			127 \|VISCAHZ \|350 \| \|SZ MR\|m^2/s \|Harmonic Visc Coefficient (m2/s) (Zeta Pt)
135			128 \|VISCA4Z \|350 \| \|SZ MR\|m^4/s \|Biharmonic Visc Coefficient (m4/s) (Zeta Pt)
136			129 \|VISCAHD \|350 \| \|SM MR\|m^2/s \|Harmonic Viscosity Coefficient (m2/s) (Div Pt)
137			130 \|VISCA4D \|350 \| \|SM MR\|m^4/s \|Biharmonic Viscosity Coefficient (m4/s) (Div Pt)
138			131 \|VISCAHW \|350 \| \|WM LR\|m^2/s \|Harmonic Viscosity Coefficient (m2/s) (W Pt)
139			132 \|VISCA4W \|350 \| \|WM LR\|m^4/s \|Biharmonic Viscosity Coefficient (m4/s) (W Pt)
140			133 \|VAHZMAX \|350 \| \|SZ MR\|m^2/s \|CFL-MAX Harm Visc Coefficient (m2/s) (Zeta Pt)
141			134 \|VA4ZMAX \|350 \| \|SZ MR\|m^4/s \|CFL-MAX Biharm Visc Coefficient (m4/s) (Zeta Pt)
142			135 \|VAHDMAX \|350 \| \|SM MR\|m^2/s \|CFL-MAX Harm Visc Coefficient (m2/s) (Div Pt)
143			136 \|VA4DMAX \|350 \| \|SM MR\|m^4/s \|CFL-MAX Biharm Visc Coefficient (m4/s) (Div Pt)
144			137 \|VAHZMIN \|350 \| \|SZ MR\|m^2/s \|RE-MIN Harm Visc Coefficient (m2/s) (Zeta Pt)
145			138 \|VA4ZMIN \|350 \| \|SZ MR\|m^4/s \|RE-MIN Biharm Visc Coefficient (m4/s) (Zeta Pt)
146			139 \|VAHDMIN \|350 \| \|SM MR\|m^2/s \|RE-MIN Harm Visc Coefficient (m2/s) (Div Pt)
147			140 \|VA4DMIN \|350 \| \|SM MR\|m^4/s \|RE-MIN Biharm Visc Coefficient (m4/s) (Div Pt)
148			141 \|VAHZLTH \|350 \| \|SZ MR\|m^2/s \|Leith Harm Visc Coefficient (m2/s) (Zeta Pt)
149			142 \|VA4ZLTH \|350 \| \|SZ MR\|m^4/s \|Leith Biharm Visc Coefficient (m4/s) (Zeta Pt)
150			143 \|VAHDLTH \|350 \| \|SM MR\|m^2/s \|Leith Harm Visc Coefficient (m2/s) (Div Pt)
151			144 \|VA4DLTH \|350 \| \|SM MR\|m^4/s \|Leith Biharm Visc Coefficient (m4/s) (Div Pt)
152			145 \|VAHZLTHD\|350 \| \|SZ MR\|m^2/s \|LeithD Harm Visc Coefficient (m2/s) (Zeta Pt)
153			146 \|VA4ZLTHD\|350 \| \|SZ MR\|m^4/s \|LeithD Biharm Visc Coefficient (m4/s) (Zeta Pt)
154			147 \|VAHDLTHD\|350 \| \|SM MR\|m^2/s \|LeithD Harm Visc Coefficient (m2/s) (Div Pt)
155			148 \|VA4DLTHD\|350 \| \|SM MR\|m^4/s \|LeithD Biharm Visc Coefficient (m4/s) (Div Pt)
156			149 \|VAHZSMAG\|350 \| \|SZ MR\|m^2/s \|Smagorinsky Harm Visc Coefficient (m2/s) (Zeta Pt)
157			150 \|VA4ZSMAG\|350 \| \|SZ MR\|m^4/s \|Smagorinsky Biharm Visc Coeff. (m4/s) (Zeta Pt)
158			151 \|VAHDSMAG\|350 \| \|SM MR\|m^2/s \|Smagorinsky Harm Visc Coefficient (m2/s) (Div Pt)
159			152 \|VA4DSMAG\|350 \| \|SM MR\|m^4/s \|Smagorinsky Biharm Visc Coeff. (m4/s) (Div Pt)
160			153 \|momKE \|350 \| \|SMR MR\|m^2/s^2 \|Kinetic Energy (in momentum Eq.)
161			154 \|momHDiv \|350 \| \|SMR MR\|s^-1 \|Horizontal Divergence (in momentum Eq.)
162			155 \|momVort3\|350 \| \|SZR MR\|s^-1 \|3rd component (vertical) of Vorticity
163			156 \|Strain \|350 \| \|SZR MR\|s^-1 \|Horizontal Strain of Horizontal Velocities
164			157 \|Tension \|350 \| \|SMR MR\|s^-1 \|Horizontal Tension of Horizontal Velocities
165			158 \|UBotDrag\|350 \| 159 \|UUR MR\|m/s^2 \|U momentum tendency from Bottom Drag
166			159 \|VBotDrag\|350 \| 158 \|VVR MR\|m/s^2 \|V momentum tendency from Bottom Drag
167			160 \|USidDrag\|350 \| 161 \|UUR MR\|m/s^2 \|U momentum tendency from Side Drag
168			161 \|VSidDrag\|350 \| 160 \|VVR MR\|m/s^2 \|V momentum tendency from Side Drag
169			162 \|Um_Diss \|350 \| 163 \|UUR MR\|m/s^2 \|U momentum tendency from Dissipation
170			163 \|Vm_Diss \|350 \| 162 \|VVR MR\|m/s^2 \|V momentum tendency from Dissipation
171			164 \|Um_Advec\|350 \| 165 \|UUR MR\|m/s^2 \|U momentum tendency from Advection terms
172			165 \|Vm_Advec\|350 \| 164 \|VVR MR\|m/s^2 \|V momentum tendency from Advection terms
173			166 \|Um_Cori \|350 \| 167 \|UUR MR\|m/s^2 \|U momentum tendency from Coriolis term
174			167 \|Vm_Cori \|350 \| 166 \|VVR MR\|m/s^2 \|V momentum tendency from Coriolis term
175			168 \|Um_dPHdx\|350 \| 169 \|UUR MR\|m/s^2 \|U momentum tendency from Hydrostatic Pressure grad
176			169 \|Vm_dPHdy\|350 \| 168 \|VVR MR\|m/s^2 \|V momentum tendency from Hydrostatic Pressure grad
177			170 \|Um_Ext \|350 \| 171 \|UUR MR\|m/s^2 \|U momentum tendency from external forcing
178			171 \|Vm_Ext \|350 \| 170 \|VVR MR\|m/s^2 \|V momentum tendency from external forcing
179			172 \|Um_AdvZ3\|350 \| 173 \|UUR MR\|m/s^2 \|U momentum tendency from Vorticity Advection
180			173 \|Vm_AdvZ3\|350 \| 172 \|VVR MR\|m/s^2 \|V momentum tendency from Vorticity Advection
181			174 \|Um_AdvRe\|350 \| 175 \|UUR MR\|m/s^2 \|U momentum tendency from vertical Advection (Explicit part)
182			175 \|Vm_AdvRe\|350 \| 174 \|VVR MR\|m/s^2 \|V momentum tendency from vertical Advection (Explicit part)
183			176 \|Wm_Diss \|350 \| \|WMr LR\|m/s^2 \|W momentum tendency from Dissipation
184			177 \|Wm_Advec\|350 \| \|WMr LR\|m/s^2 \|W momentum tendency from Advection terms
185			178 \|WSidDrag\|350 \| \|WMr LR\|m/s^2 \|Vertical momentum tendency from Side Drag
186			179 \|ADVx_Um \|350 \| 180 \|UM MR\|m^4/s^2 \|Zonal Advective Flux of U momentum
187			180 \|ADVy_Um \|350 \| 179 \|VZ MR\|m^4/s^2 \|Meridional Advective Flux of U momentum
188			181 \|ADVrE_Um\|350 \| \|WU LR\|m^4/s^2 \|Vertical Advective Flux of U momentum (Explicit part)
189			182 \|ADVx_Vm \|350 \| 183 \|UZ MR\|m^4/s^2 \|Zonal Advective Flux of V momentum
190			183 \|ADVy_Vm \|350 \| 182 \|VM MR\|m^4/s^2 \|Meridional Advective Flux of V momentum
191			184 \|ADVrE_Vm\|350 \| \|WV LR\|m^4/s^2 \|Vertical Advective Flux of V momentum (Explicit part)
192			185 \|VISCx_Um\|350 \| 186 \|UM MR\|m^4/s^2 \|Zonal Viscous Flux of U momentum
193			186 \|VISCy_Um\|350 \| 185 \|VZ MR\|m^4/s^2 \|Meridional Viscous Flux of U momentum
194			187 \|VISrE_Um\|350 \| \|WU LR\|m^4/s^2 \|Vertical Viscous Flux of U momentum (Explicit part)
195			188 \|VISrI_Um\|350 \| \|WU LR\|m^4/s^2 \|Vertical Viscous Flux of U momentum (Implicit part)
196			189 \|VISCx_Vm\|350 \| 190 \|UZ MR\|m^4/s^2 \|Zonal Viscous Flux of V momentum
197			190 \|VISCy_Vm\|350 \| 189 \|VM MR\|m^4/s^2 \|Meridional Viscous Flux of V momentum
198			191 \|VISrE_Vm\|350 \| \|WV LR\|m^4/s^2 \|Vertical Viscous Flux of V momentum (Explicit part)
199			192 \|VISrI_Vm\|350 \| \|WV LR\|m^4/s^2 \|Vertical Viscous Flux of V momentum (Implicit part)
200			193 \|TRAC01 \|350 \| \|SMR MR\|kg/kg \|plume1 concentration
201			194 \|UTRAC01 \|350 \| 195 \|UUr MR\|kg/kg.m/s \|Zonal Mass-Weighted Transp of plume1
202			195 \|VTRAC01 \|350 \| 194 \|VVr MR\|kg/kg.m/s \|Merid Mass-Weighted Transp of plume1
203			196 \|WTRAC01 \|350 \| \|WM MR\|kg/kg.m/s \|Vert Mass-Weighted Transp of plume1
204			197 \|ForcTr01\|350 \| \|SMR MR\|kg/kg/s \|plume1 forcing tendency
205			198 \|AB_gTr01\|350 \| \|SMR MR\|kg/kg/s \|plume1 tendency from Adams-Bashforth
206			199 \|ADVrTr01\|350 \| \|WM LR\|kg/kg.m^3/s \|Vertical Advective Flux of plume1
207			------------------------------------------------------------------------------------
208			Num \|<-Name->\|Levs\| mate \|<- code ->\|<-- Units -->\|<- Tile (max=80c)
209			------------------------------------------------------------------------------------
210			200 \|ADVxTr01\|350 \| 201 \|UU MR\|kg/kg.m^3/s \|Zonal Advective Flux of plume1
211			201 \|ADVyTr01\|350 \| 200 \|VV MR\|kg/kg.m^3/s \|Meridional Advective Flux of plume1
212			202 \|DFrETr01\|350 \| \|WM LR\|kg/kg.m^3/s \|Vertical Diffusive Flux of plume1 (Explicit part)
213			203 \|DFxETr01\|350 \| 204 \|UU MR\|kg/kg.m^3/s \|Zonal Diffusive Flux of plume1
214			204 \|DFyETr01\|350 \| 203 \|VV MR\|kg/kg.m^3/s \|Meridional Diffusive Flux of plume1
215			205 \|DFrITr01\|350 \| \|WM LR\|kg/kg.m^3/s \|Vertical Diffusive Flux of plume1 (Implicit part)
216			206 \|TRAC02 \|350 \| \|SMR MR\|kg/kg \|plume2 concentration
217			207 \|UTRAC02 \|350 \| 208 \|UUr MR\|kg/kg.m/s \|Zonal Mass-Weighted Transp of plume2
218			208 \|VTRAC02 \|350 \| 207 \|VVr MR\|kg/kg.m/s \|Merid Mass-Weighted Transp of plume2
219			209 \|WTRAC02 \|350 \| \|WM MR\|kg/kg.m/s \|Vert Mass-Weighted Transp of plume2
220			210 \|ForcTr02\|350 \| \|SMR MR\|kg/kg/s \|plume2 forcing tendency
221			211 \|AB_gTr02\|350 \| \|SMR MR\|kg/kg/s \|plume2 tendency from Adams-Bashforth
222			212 \|ADVrTr02\|350 \| \|WM LR\|kg/kg.m^3/s \|Vertical Advective Flux of plume2
223			213 \|ADVxTr02\|350 \| 214 \|UU MR\|kg/kg.m^3/s \|Zonal Advective Flux of plume2
224			214 \|ADVyTr02\|350 \| 213 \|VV MR\|kg/kg.m^3/s \|Meridional Advective Flux of plume2
225			215 \|DFrETr02\|350 \| \|WM LR\|kg/kg.m^3/s \|Vertical Diffusive Flux of plume2 (Explicit part)
226			216 \|DFxETr02\|350 \| 217 \|UU MR\|kg/kg.m^3/s \|Zonal Diffusive Flux of plume2
227			217 \|DFyETr02\|350 \| 216 \|VV MR\|kg/kg.m^3/s \|Meridional Diffusive Flux of plume2
228			218 \|DFrITr02\|350 \| \|WM LR\|kg/kg.m^3/s \|Vertical Diffusive Flux of plume2 (Implicit part)
229			219 \|Add2EmP \| 1 \| \|SM U1\|kg/m^2/s \|additional EmP from salt relaxation
230			220 \|SHIfwFlx\| 1 \| \|SM L1\|kg/m^2/s \|Ice shelf fresh water flux (positive upward)
231			221 \|SHIhtFlx\| 1 \| \|SM L1\|W/m^2 \|Ice shelf heat flux (positive upward)
232			222 \|SHIICFfw\| 1 \| \|SM L1\|kg/m^2/s \|total ice shelf and front FW flux (+ upward)
233			223 \|SHIICFht\| 1 \| \|SM L1\|W/m^2 \|total ice shelf and ice front heat flux (+ upward)
234			224 \|ICFfwFlx\|350 \| \|SM MR\|kg/m^2/s \|Ice front freshwater flux (+ve increases ocean salt)
235			225 \|ICFhtFlx\|350 \| \|SM MR\|W/m^2 \|Ice front heat flux (+ve cools ocean)
236			226 \|SHIUDrag\|350 \| 227 \|UU MR\|m/s^2 \|U momentum tendency from ice shelf drag
237			227 \|SHIVDrag\|350 \| 226 \|VV MR\|m/s^2 \|V momentum tendency from ice shelf drag
238			228 \|SHIForcT\| 1 \| \|SM L1\|W/m^2 \|Ice shelf forcing for theta, >0 increases theta
239			229 \|SHIForcS\| 1 \| \|SM L1\|g/m^2/s \|Ice shelf forcing for salt, >0 increases salt
240			230 \|ICFForcT\|350 \| \|SM MR\|W/m^2 \|Ice front forcing for theta, >0 increases theta
241			231 \|ICFForcS\|350 \| \|SM MR\|g/m^2/s \|Ice front forcing for salt, >0 increases salt
242			232 \|SHIICFFo\| 1 \| \|SM L1\|g/m^2/s \|total SHI and ICF forcing for S, >0 increases salt
243			233 \|SHIgammT\| 1 \| \|SM L1\|m/s \|Ice shelf exchange coefficient for theta
244			234 \|SHIgammS\| 1 \| \|SM L1\|m/s \|Ice shelf exchange coefficient for salt
245			235 \|SHIuStar\| 1 \| \|SM L1\|m/s \|Friction velocity at bottom of ice shelf
246			236 \|SHI_mass\| 1 \| \|SM L1\|kg/m^2 \|dynamic ice shelf mass for surface load anomaly
247			------------------------------------------------------------------------------------
248			Num \|<-Name->\|Levs\| mate \|<- code ->\|<-- Units -->\|<- Tile (max=80c)
249			------------------------------------------------------------------------------------