[MITgcm-support] diagnostics package

Matthew Mazloff mmazloff at MIT.EDU
Tue Jun 14 15:02:01 EDT 2005


Hello,

The vorticity field for my model is not zero, however the output by the 
diagnostics package for VORT was all identically zero.

My model output does not include the file available_diagnostics.log  
(How can I get this output?)
but according to the available_diagnostics.log provided by Dimitris (see 
below) the parsing array for VORT is

63 |VORT    | 15 |SM      ML      |(e-4 sec-1)     |Relative Vorticity  (x10^-4  sec^-1)



This shows it to be 'SM      '  but it should be 'SZ      ' as it is a 
C-grid corner point.  Has this error in the code been fixed or is this 
why I am not receiving vorticity output.

Thanks,
Matt


Dimitris Menemenlis wrote:

> Jeff, first time step you get a file called available_diagnostics.log, 
> attached, which contains the infor you're looking for.  D.
>
>------------------------------------------------------------------------
>
> Total Nb of available Diagnostics: ndiagt= 311
>------------------------------------------------------------------------
> Num |<-Name->|Levs|<-parsing code->|<--  Units   -->|<- Tile (max=80c) 
>------------------------------------------------------------------------
>   1 |UFLUX   |  1 |UM   002L1      |N/m2            |Zonal Wind Surface Stress  (N/m^2)
>   2 |VFLUX   |  1 |VM   001L1      |N/m2            |Meridional Wind Surface Stress  (N/m^2)
>   3 |HFLUX   |  1 |SM      L1      |watt/m2         |Sensible Heat Flux (pos.upwrd)  (W/m^2)
>   4 |EFLUX   |  1 |SM      L1      |watt/m2         |Latent   Heat Flux (pos.upwrd)  (W/m^2)
>   5 |QICE    |  1 |SM      L1      |watt/m2         |Heat Conduction through Sea-Ice  (W/m^2)
>   6 |RADLWG  |  1 |SM      L1      |watt/m2         |Net Upward   Longwave Flux at the Ground  (W/m^2)
>   7 |RADSWG  |  1 |SM P    L1      |watt/m2         |Net Downward Shortwave Flux at the Ground  (W/m^2)
>   8 |RI      | 15 |SM      LL      |non-dimensional |Richardson Number  (non-dimensional)
>   9 |CT      |  1 |SM      L1      |non-dimensional |Surface Drag Coef for Scalars (non-dimensional)
>  10 |CU      |  1 |SM      L1      |non-dimensional |Surface Drag Coef for Winds (non-dimensional)
>  11 |KM      | 15 |SM      LL      |m2/sec          |Eddy Diffusivity Coefficient for Momentum  (m^2/s)
>  12 |KH      | 15 |SM      LL      |m2/sec          |Eddy Diffusivity Coefficient for Scalars  (m^2/s)
>  13 |TURBU   | 15 |UM   014ML      |m/s/day         |Zonal Wind Tendency from Turbulence  (m/s/day)
>  14 |TURBV   | 15 |VM   013ML      |m/s/day         |Meridional Wind Tendency from Turbulence  (m/s/day)
>  15 |TURBT   | 15 |SM      ML      |K/day           |Temperature Tendency from Turbulence  (K/day)
>  16 |TURBQ   | 15 |SM      ML      |gram/kg/day     |Specific Humidity Tendency from Turbulence  (g/kg/day)
>  17 |MOISTT  | 15 |SM      ML      |K/day           |Temperature Tendency due to Moist Processes  (K/day)
>  18 |MOISTQ  | 15 |SM      ML      |gram/kg/day     |Specific Humidity Tendency due to Moist Processes  (g/kg/day)
>  19 |RADLW   | 15 |SM      ML      |K/day           |Temperature Tendency due to Longwave Radiation  (K/day)
>  20 |RADSW   | 15 |SM P    ML      |K/day           |Temperature Tendency due to Shortwave Radiation  (K/day)
>  21 |PREACC  |  1 |SM P    L1      |mm/day          |Total Precipitation  (mm/day)
>  22 |PRECON  |  1 |SM P    L1      |mm/day          |Convective Precipitation  (mm/day)
>  23 |TUFLUX  | 15 |UM   024LL      |N/m2            |Turbulent Flux of Zonal Momentum  (N/m^2)
>  24 |TVFLUX  | 15 |VM   023LL      |N/m2            |Turbulent Flux of Meridional Momentum  (N/m^2)
>  25 |TTFLUX  | 15 |SM      LL      |watt/m2         |Turbulent Flux of Sensible Heat  (W/m^2)
>  26 |TQFLUX  | 15 |SM      LL      |watt/m2         |Turbulent Flux of Latent Heat  (W/m^2)
>  27 |CN      |  1 |SM      L1      |non-dimensional |Neutral Drag Coefficient  (non-dimensional)
>  28 |WINDS   |  1 |SM      L1      |m/sec           |Surface Wind Speed  (m/s)
>  29 |DTSRF   |  1 |SM      L1      |K               |Air/Surface Virtual Temperature Difference  (deg K)
>  30 |TGROUND |  1 |SM      L1      |K               |Ground Temperature  (deg K)
>  31 |TS      |  1 |SM      L1      |K               |Surface Air Temperature  (deg K)
>  32 |DTG     |  1 |SM      L1      |K               |Ground Temperature Adjustment (deg K)
>  33 |QG      |  1 |SM P    L1      |gram/kg         |Ground Specific Humidity  (g/kg)
>  34 |QS      |  1 |SM P    L1      |gram/kg         |Saturation Surface Specific Humidity  (g/kg)
>  35 |TGRLW   |  1 |SM      L1      |K               |Ground Temperature used by LW Radiation  (deg K)
>  36 |LWGUP   |  1 |SM      L1      |watt/m2         |Upward Longwave Radiation at the Ground  (W/m^2)
>  37 |OLR     |  1 |SM      U1      |watt/m2         |Outgoing Longwave Radiation   (W/m^2)
>  38 |OLRCLR  |  1 |SM      U1      |watt/m2         |Clear Sky Outgoing Longwave Radiation  (W/m^2)
>  39 |LWGCLR  |  1 |SM      L1      |watt/m2         |Clear Sky Net Longwave Flux at the Ground  (W/m^2)
>  40 |LWCLR   | 15 |SM      ML      |K/day           |Clear Sky Longwave Radiation Heating Rates  (K/day)
>  41 |TLW     | 15 |SM      ML      |K               |Temperature used by Radiation  (deg K)
>  42 |SHRAD   | 15 |SM P    ML      |gram/kg         |Specific Humidity used by Radiation  (g/kg)
>  43 |OZLW    | 15 |SM      ML      |non-dimensional |Ozone mixing ratio used by Longwave Radiation (non-dimensional)
>  44 |CLDRAS  | 15 |SM P    ML      |0-1             |Convective Cloud Fraction  (0-1)
>  45 |CLDTOT  | 15 |SM P    ML      |0-1             |3-D Total Cloud Fraction  (0-1)
>  46 |LWGDOWN |  1 |SM      L1      |watt/m2         |Downward Longwave Radiation at the Ground  (W/m^2)
>  47 |GWDT    | 15 |SM      ML      |K/day           |Temperature Tendency due to Gravity Wave Drag  (K/day)
>  48 |RADSWT  |  1 |SM P    U1      |watt/m2         |Incident Shortwave Radiation at TOA (W/m^2)
>  49 |TAUCLD  | 15 |SM  C050ML      |non-dimensional |Counted Cloud Optical Depth (non-dimensional) per 100 mb
>  50 |TAUCLDC | 15 |SM  D   ML      |count           |Cloud Optical Depth Counter
>  51 |CLDLOW  |  1 |SM P    M1      |0-1             |Low-Level ( 1000-700 hPa) Cloud Fraction  (0-1)
>  52 |EVAP    |  1 |SM      L1      |mm/day          |Surface Evaporation  (mm/day)
>  53 |DPDT    |  1 |SM      L1      |hPa/day         |Surface Pressure Tendency  (hPa/day)
>  54 |UAVE    | 15 |UU   055MR      |m/s             |Average Zonal Wind (m/s)
>  55 |VAVE    | 15 |VV   054MR      |m/s             |Average Meridional Wind (m/s)
>  56 |TAVE    | 15 |SM      MR      |K               |Average Potential Temperature (K)
>  57 |QAVE    | 15 |SM      MR      |gram/kg         |Average Specific Humidity (g/kg)
>  58 |OMEGA   | 15 |SM      ML      |hPa/day         |Vertical Velocity  (hPa/day)
>  59 |DUDT    | 15 |UU   060ML      |m/s/day         |Total Zonal Wind Tendency  (m/s/day)
>  60 |DVDT    | 15 |VV   059ML      |m/s/day         |Total Meridional Wind Tendency  (m/s/day)
>  61 |DTDT    | 15 |SM      ML      |K/day           |Total Temperature Tendency  (K/day)
>  62 |DQDT    | 15 |SM      ML      |gram/kg/day     |Total Specific Humidity Tendency  (g/kg/day)
>  63 |VORT    | 15 |SM      ML      |(e-4 sec-1)     |Relative Vorticity  (x10^-4  sec^-1)
>  64 |PSIGDOT | 15 |SM      LL      |hPa/day         |Pi-Weighted Vertical Sigma Velocity  (hPa/day)
>  65 |DTLS    | 15 |SM      ML      |K/day           |Temperature Tendency due to Stratiform Processes  (K/day)
>  66 |DQLS    | 15 |SM      ML      |gram/kg/day     |Specific Humidity Tendency from Stratiform Processes (g/kg/day)
>  67 |USTAR   |  1 |SM      L1      |m/sec           |Friction Velocity  (m/s)
>  68 |Z0      |  1 |SM      L1      |m               |Surface Roughness Z0  (m)
>  69 |FRQTRB  | 14 |SM P    MM      |0-1             |Frequency of Turbulence  (0-1)
>  70 |PBL     |  1 |SM P    M1      |hPa             |Estimated PBL Depth  (hPa)
>  71 |SWCLR   | 15 |SM P    ML      |K/day           |Clear Sky Shortwave Heating Rates  (K/day)
>  72 |OSR     |  1 |SM P    U1      |watt/m2         |Outgoing Shortwave Radiation  (W/m^2)
>  73 |OSRCLR  |  1 |SM P    U1      |watt/m2         |Clear Sky Outgoing Shortwave Radiation  (W/m^2)
>  74 |CLDMAS  | 15 |SM P    LL      |g/m2/sec        |Cloud Mass Flux  (g/m^2/sec)
>  75 |UWND    | 15 |UU   076ML      |m/sec           |Time-Averaged Zonal Wind  (m/s)
>  76 |VWND    | 15 |VV   075ML      |m/sec           |Time-Averaged Meridional Wind  (m/s)
>  77 |TMPU    | 15 |SM      ML      |K               |Time-Averaged Temperature  (deg K)
>  78 |SPHU    | 15 |SM P    ML      |gram/kg         |Time-Averaged Specific Humidity  (g/kg)
>  79 |RFT     | 15 |SM      ML      |K/day           |Temperature Tendency due to Rayleigh Friction (K/day)
>  80 |PS      |  1 |SM      L1      |hPa             |Time-Averaged Surface Pressure  (hPa)
>  81 |TKE     | 15 |SM P    LL      |(m/sec)2        |Time-Averaged Turbulent Kinetic Energy  (m/s)^2
>  82 |SWGCLR  |  1 |SM P    L1      |watt/m2         |Clear Sky Net Downward SW Radiation at the Ground  (W/m^2)
>  83 |PAVE    |  1 |SM      L1      |hPa/day         |Average Surface Pressure (hPa)
>  84 |SDIAG1  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #1
>  85 |SDIAG2  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #2
>  86 |UDIAG1  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #1
>  87 |UDIAG2  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #2
>  88 |DIABU   | 15 |UU   089ML      |m/s/day         |Zonal Wind Tendency due to Diabatic Forcing  (m/s/day)
>  89 |DIABV   | 15 |VV   088ML      |m/s/day         |Meridional Wind Tendency due to Diabatic Forcing  (m/s/day)
>  90 |DIABT   | 15 |SM      ML      |K/day           |Temperature Tendency due to Diabatic Forcing  (K/day)
>  91 |DIABQ   | 15 |SM      ML      |gram/kg/day     |Specific Humidity Tendency due to Diabatic Forcing  (g/kg/day)
>  92 |RFU     | 15 |UU   093ML      |m/s/day         |Zonal Wind Tendency due to Rayleigh Friction  (m/s/day)
>  93 |RFV     | 15 |VV   092ML      |m/s/day         |Meridional Wind Tendency due to Rayleigh Friction  (m/s/day)
>  94 |GWDU    | 15 |UM   095ML      |m/s/day         |Zonal Wind Tendency due to Gravity Wave Drag  (m/s/day)
>  95 |GWDV    | 15 |VM   094ML      |m/s/day         |Meridional Wind Tendency due to Gravity Wave Drag  (m/s/day)
>  96 |GWDUS   |  1 |UM   097L1      |N/m2            |Zonal Wind Gravity Wave Surface Stress (N/m^2)
>  97 |GWDVS   |  1 |VM   096L1      |N/m2            |Meridional Wind Gravity Wave Surface Stress (N/m^2)
>  98 |GWDUT   |  1 |UM   099U1      |N/m2            |Zonal Wind Gravity Wave Stress at Model Top (N/m^2)
>  99 |GWDVT   |  1 |VM   098U1      |N/m2            |Meridional Wind Gravity Wave Stress at Model Top (N/m^2)
>------------------------------------------------------------------------
> Num |<-Name->|Levs|<-parsing code->|<--  Units   -->|<- Tile (max=80c) 
>------------------------------------------------------------------------
> 100 |LZRAD   | 15 |SM      ML      |mg/kg           |Estimated Cloud Liquid Water used in Radiation (mg/kg)
> 101 |SLP     |  1 |SM      L1      |hPa             |Time-Averaged Sea-Level Pressure  (mb)
> 102 |VAVEUQ  |  1 |UM   103M1      |m/s gram/kg     |Vertically Averaged UWND*SPHU  (m/s g/kg)
> 103 |VAVEVQ  |  1 |VM   102M1      |m/s gram/kg     |Vertically Averaged VWND*SPHU  (m/s g/kg)
> 104 |VAVEUT  |  1 |UM   105M1      |m/s K           |Vertically Averaged UWND*TMPU  (m/s deg K)
> 105 |VAVEVT  |  1 |VM   104M1      |m/s K           |Vertically Averaged VWND*TMPU  (m/s deg K)
> 106 |CLDFRC  |  1 |SM P    M1      |0-1             |2-D Total Cloud Fraction  (0-1)
> 107 |TPW     |  1 |SM P    M1      |gram/cm2        |Total Precipitable Water  (g/cm^2)
> 108 |U2M     |  1 |UM   109M1      |m/sec           |Zonal Wind Interpolated to 2 Meters (m/s)
> 109 |V2M     |  1 |VM   108M1      |m/sec           |Meridional Wind Interpolated to 2 Meters (m/s)
> 110 |T2M     |  1 |SM      M1      |K               |Temperature Interpolated to 2 Meters (deg K)
> 111 |Q2M     |  1 |SM P    M1      |gram/kg         |Specific Humidity Interpolated to 2 Meters (g/kg)
> 112 |U10M    |  1 |UM   113M1      |m/sec           |Zonal Wind Interpolated to 10 Meters (m/s)
> 113 |V10M    |  1 |VM   112M1      |m/sec           |Meridional Wind Interpolated to 10 Meters (m/s)
> 114 |T10M    |  1 |SM      M1      |K               |Temperature Interpolated to 10 Meters (deg K)
> 115 |Q10M    |  1 |SM P    M1      |gram/kg         |Specific Humidity Interpolated to 10 Meters (g/kg)
> 116 |DTRAIN  | 15 |SM P    LL      |g/m2/sec        |Detrainment Cloud Mass Flux  (g/m^2/sec)
> 117 |QFILL   | 15 |SM      ML      |gram/kg/day     |Filling of Negative Specific Humidity (g/kg/day)
> 118 |VAVEQAVE|  1 |SM      M1      |mm/day          |Vertically Averaged QAVE  (mm/day)
> 119 |VAVEQFIL|  1 |SM P    L1      |mm/day          |Vertically Averaged QFILL  (mm/day)
> 120 |        |  0 |                |                |
> 121 |        |  0 |                |                |
> 122 |        |  0 |                |                |
> 123 |        |  0 |                |                |
> 124 |SDIAG3  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #3
> 125 |SDIAG4  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #4
> 126 |SDIAG5  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #5
> 127 |SDIAG6  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #6
> 128 |SDIAG7  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #7
> 129 |SDIAG8  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #8
> 130 |SDIAG9  |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #9
> 131 |SDIAG10 |  1 |SM      L1      |user-defined    |User-Defined Surface   Diagnostic #10
> 132 |UDIAG3  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #3
> 133 |UDIAG4  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #4
> 134 |UDIAG5  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #5
> 135 |UDIAG6  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #6
> 136 |UDIAG7  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #7
> 137 |UDIAG8  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #8
> 138 |UDIAG9  | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #9
> 139 |UDIAG10 | 15 |SM      ML      |user-defined    |User-Defined Upper-Air Diagnostic #10
> 140 |CLDMID  |  1 |SM P    M1      |0-1             |Mid-Level (700-400 hPa) Cloud Fraction  (0-1)
> 141 |CLDHI   |  1 |SM P    M1      |0-1             |High-Level (above 400 hPa) Cloud Fraction  (0-1)
> 142 |TAULOW  |  1 |SM PC150M1      |non-dimensional |Low-Level (1000-700 hPa) Optical Depth
> 143 |TAUMID  |  1 |SM PC151M1      |non-dimensional |Mid-Level (700-400 hPa) Optical Depth
> 144 |TAUHI   |  1 |SM PC152M1      |non-dimensional |High-Level (above 400 hPa) Optical Depth
> 145 |CLDNP   | 15 |SM      ML      |0-1             |Non-Precipitating Cloud Fraction  (0-1)
> 146 |CLDPRS  |  1 |SM PC147M1      |hPa             |Cloud Top Pressure (when cloudy)  (hPa)
> 147 |CTPCNT  |  1 |SM  D   M1      |count           |Cloud Top Pressure Counter
> 148 |CLDTMP  |  1 |SM PC149M1      |K               |Cloud Top Temperature (when cloudy)  (deg K)
> 149 |CTTCNT  |  1 |SM  D   M1      |count           |Cloud Top Temperature Counter
> 150 |TAULOWC |  1 |SM  D   M1      |count           |Low-Level Optical Depth Counter
> 151 |TAUMIDC |  1 |SM  D   M1      |count           |Mid-Level Optical Depth Counter
> 152 |TAUHIC  |  1 |SM  D   M1      |count           |High-Level Optical Depth Counter
> 153 |TCANOPY |  1 |SM      L1      |K               |Skin Temperature of the Canopy/Soil (SST over water)  (deg K)
> 154 |TDEEP   |  1 |SM      L1      |K               |Deep Soil Temperature  (deg K)
> 155 |QCANOPY |  1 |SM      L1      |gram/kg         |Specific Humidity of the Canopy  (g/kg)
> 156 |SMSHAL  |  1 |SM      L1      |0-1             |Soil Moisture Field Capacity Fraction in Shallow (5 mm) Layer
> 157 |SMROOT  |  1 |SM      L1      |0-1             |Soil Moisture Field Capacity Fraction in Root Zone
> 158 |SMDEEP  |  1 |SM      L1      |0-1             |Soil Moisture Field Capacity Fraction in Recharge Layer
> 159 |CAPACITY|  1 |SM      L1      |mm              |Canopy Interception Reservoir (mm)
> 160 |SNOW    |  1 |SM      L1      |mm water equiv  |Snow Depth (mm water equivalent)
> 161 |RAINCON |  1 |SM      L1      |mm/day          |Convective Rainfall (liquid precipitate)  (mm/day)
> 162 |RAINLSP |  1 |SM      L1      |mm/day          |Large-scale Rainfall (liquid precipitate)  (mm/day)
> 163 |SNOWFALL|  1 |SM P    L1      |mm/day          |Total Snowfall (solid precipitate)  (mm/day)
> 164 |RUNOFF  |  1 |SM      L1      |mm/sec          |Water from precipitation not infiltrated into soil  (mm/s)
> 165 |FWSOIL  |  1 |SM      L1      |mm/sec          |Rainwater Infiltration into top soil layer  (mm/s)
> 166 |GDRAIN  |  1 |SM      L1      |mm/sec          |Diffusion of Moisture across bottom of root zone  (mm/s)
> 167 |SNOWMELT|  1 |SM      L1      |mm/sec          |Rate of Snow Melt  (mm/s)
> 168 |ERESV   |  1 |SM      L1      |watt/m2         |Latent Heat Flux from Canopy Interception Reservoir  (W/m^2)
> 169 |ESOIL   |  1 |SM      L1      |watt/m2         |Latent Heat Flux from Bare Soil  (W/m^2)
> 170 |EVEG    |  1 |SM      L1      |watt/m2         |Latent Heat Flux (Transpiration) from Vegetated Surface (W/m^2)
> 171 |ESNOW   |  1 |SM      L1      |watt/m2         |Latent Heat Flux from Snow Pack  (W/m^2)
> 172 |PARDF   |  1 |SM P    L1      |watt/m2         |Diffuse-beam Photosynthetically Active Radiation  (W/m^2)
> 173 |PARDR   |  1 |SM P    L1      |watt/m2         |Direct-beam Photosynthetically Active Radiation  (W/m^2)
> 174 |LAI     |  1 |SM      L1      |percent         |Leaf Area Index  (%)
> 175 |GREEN   |  1 |SM      L1      |percent         |Green-ness Index  (%)
> 176 |DLWDTC  |  1 |SM      L1      |watt/m2/K       |Derivative of Upward LW Radiation wrt TCANOPY (W/m^2 /deg K)
> 177 |DHDTC   |  1 |SM      L1      |watt/m2/K       |Derivative of Sensible Heat Flux wrt TCANOPY (W/m^2 /deg K)
> 178 |DEDTC   |  1 |SM      L1      |watt/m2/K       |Derivative of Latent Heat Flux wrt TCANOPY (W/m^2 /deg K)
> 179 |VDTMOIST|  1 |SM      M1      |K/day           |Vertically Averaged MOISTT  (K/day)
> 180 |VDTTURB |  1 |SM      M1      |K/day           |Vertically Averaged TURBT  (K/day)
> 181 |VDTLWRAD|  1 |SM      M1      |K/day           |Vertically Averaged RADLW  (K/day)
> 182 |VDTSWRAD|  1 |SM P    M1      |K/day           |Vertically Averaged RADSW  (K/day)
> 183 |VAVETAVE|  1 |SM      M1      |K/day           |Vertically Averaged TAVE  (K/day)
> 184 |PSUBCLD |  1 |SM PC185M1      |hPa             |Pressure Thickness of the RAS Subcloud Layer (mb)
> 185 |PSUBCLDC|  1 |SM PD   M1      |count           |Pressure Thickness of the RAS Subcloud Layer Counter
> 186 |LCL     |  1 |SM      L1      |hPa             |Lifting Condensation Level (mb)
> 187 |SDIAGC  |  1 |SM  C188L1      |user-defined    |User-Defined Counted Surface Diagnostic
> 188 |SDIAGCC |  1 |SM  D   L1      |count           |User-Defined Counted Surface Diagnostic Counter
> 189 |        |  0 |         0      |                |
> 190 |EVPOT   |  1 |SM      L1      |watt/m2         |Potential Evapotranspiration (W/m^2)
> 191 |RHCHECK |  1 |SM P    L1      |mm/day          |Net precip due to supersaturation above critical RH  (mm/day)
> 192 |DHDQA   |  1 |SM      L1      |watt/m2         |Derivative of Sensible Heat wrt Canopy Humidity (W/m^2)
> 193 |DEDQA   |  1 |SM      L1      |watt/m2         |Derivative of Latent Heat wrt Canopy Humidity (W/m^2)
> 194 |DTC     |  1 |SM      L1      |K/sec           |Total Change in Canopy Temperature (deg/sec)
> 195 |DQC     |  1 |SM      L1      |sec-1           |Change in Canopy Humidity (kg/kg/sec)
> 196 |TCDTC   |  1 |SM      L1      |K/sec           |Change in Canopy Temperature - Energy Term (deg/sec)
> 197 |RADDTC  |  1 |SM      L1      |K/sec           |Change in Canopy Temperature - Net Radiation Term (deg/sec)
> 198 |SENDDTC |  1 |SM      L1      |K/sec           |Change in Canopy Temperature - Sensible Heat Term (deg/sec)
> 199 |LATDTC  |  1 |SM      L1      |K/sec           |Change in Canopy Temperature - Latent Heat Term (deg/sec)
>------------------------------------------------------------------------
> Num |<-Name->|Levs|<-parsing code->|<--  Units   -->|<- Tile (max=80c) 
>------------------------------------------------------------------------
> 200 |TDDTC   |  1 |SM      L1      |K/sec           |Change in Canopy Temperature - Ground Temp Term (deg/sec)
> 201 |QCDTC   |  1 |SM      L1      |K/sec           |Change in Canopy Temperature - Humidity Term (deg/sec)
> 202 |TRBQLIQ | 15 |SM      ML      |mg/kg           |Cloud Liquid Water Generated in Turbulence (mg/kg)
> 203 |TRBFCC  | 15 |SM      ML      |0-1             |Cloud Fraction Generated in Turbulence (fraction)
> 204 |ALBEDO  |  1 |SM  C210L1      |0-1             |Mean Surface Albedo (SW_Up/SW_Down)  0-1
> 205 |ALBVISDR|  1 |SM      L1      |0-1             |Direct  Beam VIS Surface Albedo (0-1)
> 206 |ALBVISDF|  1 |SM      L1      |0-1             |Diffuse Beam VIS Surface Albedo (0-1)
> 207 |ALBNIRDR|  1 |SM      L1      |0-1             |Direct  Beam NIR Surface Albedo (0-1)
> 208 |ALBNIRDF|  1 |SM      L1      |0-1             |Diffuse Beam NIR Surface Albedo (0-1)
> 209 |TAUAVE  | 15 |SM      ML      |non-dimensional |Averaged Cloud Optical Depth (non-dimensional) per 100 mb
> 210 |ALBEDOC |  1 |SM  D   L1      |count           |Surface Albedo Counter
> 211 |RHCHECKT| 15 |SM      ML      |K/day           |Temperature Change due to humidity above critical RH  (K/day)
> 212 |RHCHECKQ| 15 |SM      ML      |g/kg/day        |Spec.Humid. Change due to humidity above critical RH (g/kg/day)
> 213 |CLDLSP  | 15 |SM P    ML      |0-1             |Large-Scale Cloud Fraction  (0-1)
> 214 |LZLOW   |  1 |SM P    L1      |mg/cm2          |Vert integrated low-level (below 700mb) cloud water (mg/cm**2)
> 215 |LZMID   |  1 |SM P    L1      |mg/cm2          |Vert integrated mid-level (700-400mb) cloud water (mg/cm**2)
> 216 |LZHI    |  1 |SM P    L1      |mg/cm2          |Vert integrated high-level (above 400mb) cloud water (mg/cm**2)
> 217 |LZTOT   |  1 |SM P    L1      |mg/cm2          |Vertically integrated total suspended cloud water (mg/cm**2)
> 218 |CAPE    |  1 |SM P    L1      |mb m2/sec2      |Convective Available Potential Energy
> 219 |HSUBCL  |  1 |SM P    L1      |m2/sec2         |Moist Static Energy in RAS subcloud layer
> 220 |HSTAR   | 15 |SM P    ML      |m2/sec2         |Saturation Moist Static Energy
> 221 |CONT    | 15 |SM      ML      |K/day           |Temperature Tendency due to Convective  Precipitation (K/day)
> 222 |CONQ    | 15 |SM      ML      |g/kg/day        |Moisture Tendency due to Convective Precipitation (g/kg/day)
> 223 |LST     | 15 |SM      ML      |K/day           |Temperature Tendency due to Large Scale Precipitation (K/day)
> 224 |LSQ     | 15 |SM      ML      |g/kg/day        |Moisture Tendency due to Large Scale Precipitation (g/kg/day)
> 225 |CONEVPT | 15 |SM      ML      |K/day           |Temperature Tendency due to Conv Rain Re-evaporation (K/day)
> 226 |CONEVPQ | 15 |SM      ML      |g/kg/day        |Moisture Tendency due to Conv Rain Re-evaporation (g/kg/day)
> 227 |LSEVPT  | 15 |SM      ML      |K/day           |Temperature Tendency due to Large Scale Rain Re-evap (K/day)
> 228 |LSEVPQ  | 15 |SM      ML      |g/kg/day        |Moisture Tendency due to Large Scale Rain Re-evap (g/kg/day)
> 229 |GWCUMID |  1 |UM   230L1      |m/sec           |Mid-Lev Mean U-Wind for Gravity Wave Drag w/Clouds (m/sec)
> 230 |GWCVMID |  1 |VM   229L1      |m/sec           |Mid-Lev Mean V-Wind for Gravity Wave Drag w/Clouds (m/sec)
> 231 |CLDSTD  |  1 |SM      L1      |m               |Mid-Lev Cloud Perturb Length for Gravity Wave Drag w/Clouds (m)
> 232 |GWCUBAR |  1 |UM   233L1      |m/sec           |Mid-Lev Perturb U-Wind for Gravity Wave Drag w/Clouds (m/sec)
> 233 |GWCVBAR |  1 |VM   232L1      |m/sec           |Mid-Lev Perturb V-Wind for Gravity Wave Drag w/Clouds (m/sec)
> 234 |GWCUS   |  1 |UM   235L1      |N/m2            |Mid-Lev U-Wind Stress for Gravity Wave Drag w/Clouds (N/m^2)
> 235 |GWCVS   |  1 |VM   234L1      |N/m2            |Mid-Lev V-Wind Stress for Gravity Wave Drag w/Clouds (N/m^2)
> 236 |GWCU    | 15 |UM   237ML      |m/sec/day       |U-Wind Tendency due to Gravity Wave Drag w/Clouds (m/s/day)
> 237 |GWCV    | 15 |VM   236ML      |m/sec/day       |V-Wind Tendency due to Gravity Wave Drag w/Clouds (m/s/day)
> 238 |ETAN    |  1 |SM      M1      |m               |Perturbation of Surface (pressure, height) (Pa,m)
> 239 |ETANSQ  |  1 |SM      M1      |m^2             |Square of Perturbation of Sfc (Pa^2,m^2)
> 240 |DETADT2 |  1 |SM      M1      |m^2/s^2         |Square of Eta (Surf.P,SSH) Tendency ((r_unit/s)^2)
> 241 |THETA   | 15 |SM      MR      |degC            |Potential Temperature (degC,K)
> 242 |SALT    | 15 |SM      MR      |psu             |Salt or Water Vapor mixing ratio (g/kg)
> 243 |UVEL    | 15 |UU   244MR      |m/s             |Zonal Component of Velocity (m/s)
> 244 |VVEL    | 15 |VV   243MR      |m/s             |Meridional Component of Velocity (m/s)
> 245 |WVEL    | 15 |WM      LR      |m/s             |Vertical Component of Velocity (r_units/s)
> 246 |THETASQ | 15 |SM      MR      |degC^2          |Square of Potential Temperature (K^2)
> 247 |SALTSQ  | 15 |SM      MR      |(psu)^2         |Square of Salt or Water Vapor mix rat (g^2/kg^2)
> 248 |UVELSQ  | 15 |UU   249MR      |m^2/s^2         |Square of Zonal Comp of Velocity (m^2/s^2)
> 249 |VVELSQ  | 15 |VV   248MR      |m^2/s^2         |Square of Meridional Comp of Velocity (m^2/s^2)
> 250 |WVELSQ  | 15 |WM      LR      |m^2/s^2         |Square of Vertical Comp of Velocity (m^2/s^2)
> 251 |UV_VEL_C| 15 |UM   251MR      |m^2/s^2         |Product of horizontal Comp of velocity (cell center)
> 252 |UV_VEL_Z| 15 |UZ   252MR      |m^2/s^2         |Meridional Transport of Zonal Momentum (m^2/s^2)
> 253 |WU_VEL  | 15 |WU      LR      |m.m/s^2         |Vertical Transport of Zonal Momentum (m^2/s^2)
> 254 |WV_VEL  | 15 |WV      LR      |m.m/s^2         |Vertical Transport of Meridional Momentum (m^2/s^2)
> 255 |UVELMASS| 15 |UU   256MR      |m/s             |Zonal Mass-Weighted Comp of Velocity (m/s)
> 256 |VVELMASS| 15 |VV   255MR      |m/s             |Meridional Mass-Weighted Comp of Velocity (m/s)
> 257 |WVELMASS| 15 |WM      LR      |m/s             |Vertical Mass-Weighted Comp of Velocity (m/s)
> 258 |UTHMASS | 15 |UU   259MR      |degC.m/s        |Zonal Mass-Weight Transp of Pot Temp (K.m/s)
> 259 |VTHMASS | 15 |VV   258MR      |degC.m/s        |Meridional Mass-Weight Transp of Pot Temp (K.m/s)
> 260 |WTHMASS | 15 |WM      LR      |degC.m/s        |Vertical Mass-Weight Transp of Pot Temp (K.m/s)
> 261 |USLTMASS| 15 |UU   262MR      |psu.m/s         |Zonal Mass-Weight Transp of Salt (g/kg.m/s)
> 262 |VSLTMASS| 15 |VV   261MR      |psu.m/s         |Meridional Mass-Weight Transp of Salt (g/kg.m/s)
> 263 |WSLTMASS| 15 |WM      LR      |psu.m/s         |Vertical Mass-Weight Transp of Salt (g/kg.m/s)
> 264 |UVELTH  | 15 |UU   265MR      |degC.m/s        |Zonal Transp of Pot Temp (K.m/s)
> 265 |VVELTH  | 15 |VV   264MR      |degC.m/s        |Meridional Transp of Pot Temp (K.m/s)
> 266 |WVELTH  | 15 |WM      LR      |degC.m/s        |Vertical Transp of Pot Temp (K.m/s)
> 267 |UVELSLT | 15 |UU   268MR      |psu.m/s         |Zonal Transp of Salt (g/kg.m/s)
> 268 |VVELSLT | 15 |VV   267MR      |psu.m/s         |Meridional Transp of Salt (g/kg.m/s)
> 269 |WVELSLT | 15 |WM      LR      |psu.m/s         |Vertical Transp of Salt (g/kg.m/s)
> 270 |RHOAnoma| 15 |SM      MR      |kg/m^3          |Density Anomaly (=Rho-rhoConst)
> 271 |RHOANOSQ| 15 |SM      MR      |kg^2/m^6        |Square of Density Anomaly (=(Rho-rhoConst)^2)
> 272 |URHOMASS| 15 |UU   273MR      |kg/m^2/s        |Zonal Transport of Density
> 273 |VRHOMASS| 15 |VV   272MR      |kg/m^2/s        |Meridional Transport of Density
> 274 |WRHOMASS| 15 |WM      LR      |kg/m^2/s        |Vertical Transport of Potential Density
> 275 |PHIHYD  | 15 |SM      MR      |m^2/s^2         |Hydrostatic (ocean) pressure / (atmos) geo-Potential
> 276 |PHIBOT  |  1 |SM      M1      |m^2/s^2         |ocean bottom pressure / top. atmos geo-Potential
> 277 |PHIBOTSQ|  1 |SM      M1      |m^4/s^4         |Square of ocean bottom pressure / top. geo-Potential
> 278 |DRHODR  | 15 |SM      LR      |kg/m^4          |Stratification: d.Sigma/dr (kg/m3/r_unit)
> 279 |VISCA4  | 15 |SM      MR      |m^4/s           |Biharmonic Viscosity Coefficient in (m4/s)
> 280 |VISCAH  | 15 |SM      MR      |m^2/s           |Harmonic Viscosity Coefficient in (m2/s)
> 281 |TAUX    |  1 |SU      U1      |N/m^2           |zonal surface wind stress, >0 increases uVel
> 282 |TAUY    |  1 |SV      U1      |N/m^2           |meridional surf. wind stress, >0 increases vVel
> 283 |TFLUX   |  1 |SM      U1      |W/m^2           |net surface heat flux, >0 increases theta
> 284 |TRELAX  |  1 |SM      U1      |W/m^2           |surface temperature relaxation, >0 increases theta
> 285 |TICE    |  1 |SM      U1      |W/m^2           |heat from melt/freeze of sea-ice, >0 increases theta
> 286 |SFLUX   |  1 |SM      U1      |g/m^2/s         |net surface salt flux, >0 increases salt
> 287 |SRELAX  |  1 |SM      U1      |g/m^2/s         |surface salinity relaxation, >0 increases salt
> 288 |ADVr_TH | 15 |WM      LR      |degC.m^3/s      |Vertical   Advective Flux of Pot.Temperature
> 289 |ADVx_TH | 15 |UU   290MR      |degC.m^3/s      |Zonal      Advective Flux of Pot.Temperature
> 290 |ADVy_TH | 15 |VV   289MR      |degC.m^3/s      |Meridional Advective Flux of Pot.Temperature
> 291 |DFrE_TH | 15 |WM      LR      |degC.m^3/s      |Vertical Diffusive Flux of Pot.Temperature (Explicit part)
> 292 |DIFx_TH | 15 |UU   293MR      |degC.m^3/s      |Zonal      Diffusive Flux of Pot.Temperature
> 293 |DIFy_TH | 15 |VV   292MR      |degC.m^3/s      |Meridional Diffusive Flux of Pot.Temperature
> 294 |DFrI_TH | 15 |WM      LR      |degC.m^3/s      |Vertical Diffusive Flux of Pot.Temperature (Implicit part)
> 295 |ADVr_SLT| 15 |WM      LR      |psu.m^3/s       |Vertical   Advective Flux of Salinity
> 296 |ADVx_SLT| 15 |UU   297MR      |psu.m^3/s       |Zonal      Advective Flux of Salinity
> 297 |ADVy_SLT| 15 |VV   296MR      |psu.m^3/s       |Meridional Advective Flux of Salinity
> 298 |DFrE_SLT| 15 |WM      LR      |psu.m^3/s       |Vertical Diffusive Flux of Salinity    (Explicit part)
> 299 |DIFx_SLT| 15 |UU   300MR      |psu.m^3/s       |Zonal      Diffusive Flux of Salinity
>------------------------------------------------------------------------
> Num |<-Name->|Levs|<-parsing code->|<--  Units   -->|<- Tile (max=80c) 
>------------------------------------------------------------------------
> 300 |DIFy_SLT| 15 |VV   299MR      |psu.m^3/s       |Meridional Diffusive Flux of Salinity
> 301 |DFrI_SLT| 15 |WM      LR      |psu.m^3/s       |Vertical Diffusive Flux of Salinity    (Implicit part)
> 302 |GM_VisbK|  1 |SM P    M1      |m^2/s           |Mixing coefficient from Visbeck etal parameterization
> 303 |GM_Kux  | 15 |UU P 304MR      |m^2/s           |K_11 element (U.point, X.dir) of GM-Redi tensor
> 304 |GM_Kvy  | 15 |VV P 303MR      |m^2/s           |K_22 element (V.point, Y.dir) of GM-Redi tensor
> 305 |GM_Kuz  | 15 |UU   306MR      |m^2/s           |K_13 element (U.point, Z.dir) of GM-Redi tensor
> 306 |GM_Kvz  | 15 |VV   305MR      |m^2/s           |K_23 element (V.point, Z.dir) of GM-Redi tensor
> 307 |GM_Kwx  | 15 |UM   308LR      |m^2/s           |K_31 element (W.point, X.dir) of GM-Redi tensor
> 308 |GM_Kwy  | 15 |VM   307LR      |m^2/s           |K_32 element (W.point, Y.dir) of GM-Redi tensor
> 309 |GM_Kwz  | 15 |WM P    LR      |m^2/s           |K_33 element (W.point, Z.dir) of GM-Redi tensor
> 310 |GM_PsiX | 15 |UU   311LR      |m^2/s           |GM Bolus transport stream-function : X component
> 311 |GM_PsiY | 15 |VV   310LR      |m^2/s           |GM Bolus transport stream-function : Y component
>------------------------------------------------------------------------
> Num |<-Name->|Levs|<-parsing code->|<--  Units   -->|<- Tile (max=80c) 
>------------------------------------------------------------------------
>  
>
>------------------------------------------------------------------------
>
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