s_phys_pkgs/text/aim.tex

\subsection{Atmospheric Intermediate Physics: AIM}
\label{sec:pkg:aim}
\begin{rawhtml}
<!-- CMIREDIR:package_aim: -->
\end{rawhtml}

Note:
 The folowing document below describes the \texttt{aim\_v23} package
 that is based on the version v23 of the SPEEDY code (\cite{molteni:03}).

\subsubsection{Key subroutines, parameters and files}
\label{sec:pkg:aim:implementation}

\subsubsection{AIM Diagnostics}
\label{sec:pkg:aim:diagnostics}
\begin{verbatim}

------------------------------------------------------------------------
<-Name->|Levs|<-parsing code->|<--  Units   -->|<- Tile (max=80c) 
------------------------------------------------------------------------
DIABT   |  5 |SM      ML      |K/s             |Pot. Temp.  Tendency (Mass-Weighted) from Diabatic Processes
DIABQ   |  5 |SM      ML      |g/kg/s          |Spec.Humid. Tendency (Mass-Weighted) from Diabatic Processes
RADSW   |  5 |SM      ML      |K/s             |Temperature Tendency due to Shortwave Radiation (TT_RSW)
RADLW   |  5 |SM      ML      |K/s             |Temperature Tendency due to Longwave  Radiation (TT_RLW)
DTCONV  |  5 |SM      MR      |K/s             |Temperature Tendency due to Convection (TT_CNV)
TURBT   |  5 |SM      ML      |K/s             |Temperature Tendency due to Turbulence in PBL (TT_PBL)
DTLS    |  5 |SM      ML      |K/s             |Temperature Tendency due to Large-scale condens. (TT_LSC)
DQCONV  |  5 |SM      MR      |g/kg/s          |Spec. Humidity Tendency due to Convection (QT_CNV)
TURBQ   |  5 |SM      ML      |g/kg/s          |Spec. Humidity Tendency due to Turbulence in PBL (QT_PBL)
DQLS    |  5 |SM      ML      |g/kg/s          |Spec. Humidity Tendency due to Large-Scale Condens. (QT_LSC)
TSR     |  1 |SM P    U1      |W/m^2           |Top-of-atm. net Shortwave Radiation (+=dw)
OLR     |  1 |SM P    U1      |W/m^2           |Outgoing Longwave  Radiation (+=up)
RADSWG  |  1 |SM P    L1      |W/m^2           |Net Shortwave Radiation at the Ground (+=dw)
RADLWG  |  1 |SM      L1      |W/m^2           |Net Longwave  Radiation at the Ground (+=up)
HFLUX   |  1 |SM      L1      |W/m^2           |Sensible Heat Flux (+=up)
EVAP    |  1 |SM      L1      |g/m^2/s         |Surface Evaporation (g/m2/s)
PRECON  |  1 |SM P    L1      |g/m^2/s         |Convective  Precipitation (g/m2/s)
PRECLS  |  1 |SM      M1      |g/m^2/s         |Large Scale Precipitation (g/m2/s)
CLDFRC  |  1 |SM P    M1      |0-1             |Total Cloud Fraction (0-1)
CLDPRS  |  1 |SM PC167M1      |0-1             |Cloud Top Pressure (normalized)
CLDMAS  |  5 |SM P    LL      |kg/m^2/s        |Cloud-base Mass Flux  (kg/m^2/s)
DRAG    |  5 |SM P    LL      |kg/m^2/s        |Surface Drag Coefficient (kg/m^2/s)
WINDS   |  1 |SM P    L1      |m/s             |Surface Wind Speed  (m/s)
TS      |  1 |SM      L1      |K               |near Surface Air Temperature  (K)
QS      |  1 |SM P    L1      |g/kg            |near Surface Specific Humidity  (g/kg)
ENPREC  |  1 |SM      M1      |W/m^2           |Energy flux associated with precip. (snow, rain Temp)
ALBVISDF|  1 |SM P    L1      |0-1             |Surface Albedo (Visible band) (0-1)
DWNLWG  |  1 |SM P    L1      |W/m^2           |Downward Component of Longwave Flux at the Ground (+=dw)
SWCLR   |  5 |SM      ML      |K/s             |Clear Sky Temp. Tendency due to Shortwave Radiation
LWCLR   |  5 |SM      ML      |K/s             |Clear Sky Temp. Tendency due to Longwave  Radiation
TSRCLR  |  1 |SM P    U1      |W/m^2           |Clear Sky Top-of-atm. net Shortwave Radiation (+=dw)
OLRCLR  |  1 |SM P    U1      |W/m^2           |Clear Sky Outgoing Longwave  Radiation  (+=up)
SWGCLR  |  1 |SM P    L1      |W/m^2           |Clear Sky Net Shortwave Radiation at the Ground (+=dw)
LWGCLR  |  1 |SM      L1      |W/m^2           |Clear Sky Net Longwave  Radiation at the Ground (+=up)
UFLUX   |  1 |UM   184L1      |N/m^2           |Zonal Wind Surface Stress  (N/m^2)
VFLUX   |  1 |VM   183L1      |N/m^2           |Meridional Wind Surface Stress  (N/m^2)
DTSIMPL |  1 |SM P    L1      |K               |Surf. Temp Change after 1 implicit time step
\end{verbatim}
1	\subsection{Atmospheric Intermediate Physics: AIM}
2	\label{sec:pkg:aim}
3	\begin{rawhtml}
4	<!-- CMIREDIR:package_aim: -->
5	\end{rawhtml}
6
7	Note:
8	The folowing document below describes the \texttt{aim\_v23} package
9	that is based on the version v23 of the SPEEDY code (\cite{molteni:03}).
10
11	\subsubsection{Key subroutines, parameters and files}
12	\label{sec:pkg:aim:implementation}
13
14	\subsubsection{AIM Diagnostics}
15	\label{sec:pkg:aim:diagnostics}
16	\begin{verbatim}
17
18	------------------------------------------------------------------------
19	<-Name->\|Levs\|<-parsing code->\|<-- Units -->\|<- Tile (max=80c)
20	------------------------------------------------------------------------
21	DIABT \| 5 \|SM ML \|K/s \|Pot. Temp. Tendency (Mass-Weighted) from Diabatic Processes
22	DIABQ \| 5 \|SM ML \|g/kg/s \|Spec.Humid. Tendency (Mass-Weighted) from Diabatic Processes
23	RADSW \| 5 \|SM ML \|K/s \|Temperature Tendency due to Shortwave Radiation (TT_RSW)
24	RADLW \| 5 \|SM ML \|K/s \|Temperature Tendency due to Longwave Radiation (TT_RLW)
25	DTCONV \| 5 \|SM MR \|K/s \|Temperature Tendency due to Convection (TT_CNV)
26	TURBT \| 5 \|SM ML \|K/s \|Temperature Tendency due to Turbulence in PBL (TT_PBL)
27	DTLS \| 5 \|SM ML \|K/s \|Temperature Tendency due to Large-scale condens. (TT_LSC)
28	DQCONV \| 5 \|SM MR \|g/kg/s \|Spec. Humidity Tendency due to Convection (QT_CNV)
29	TURBQ \| 5 \|SM ML \|g/kg/s \|Spec. Humidity Tendency due to Turbulence in PBL (QT_PBL)
30	DQLS \| 5 \|SM ML \|g/kg/s \|Spec. Humidity Tendency due to Large-Scale Condens. (QT_LSC)
31	TSR \| 1 \|SM P U1 \|W/m^2 \|Top-of-atm. net Shortwave Radiation (+=dw)
32	OLR \| 1 \|SM P U1 \|W/m^2 \|Outgoing Longwave Radiation (+=up)
33	RADSWG \| 1 \|SM P L1 \|W/m^2 \|Net Shortwave Radiation at the Ground (+=dw)
34	RADLWG \| 1 \|SM L1 \|W/m^2 \|Net Longwave Radiation at the Ground (+=up)
35	HFLUX \| 1 \|SM L1 \|W/m^2 \|Sensible Heat Flux (+=up)
36	EVAP \| 1 \|SM L1 \|g/m^2/s \|Surface Evaporation (g/m2/s)
37	PRECON \| 1 \|SM P L1 \|g/m^2/s \|Convective Precipitation (g/m2/s)
38	PRECLS \| 1 \|SM M1 \|g/m^2/s \|Large Scale Precipitation (g/m2/s)
39	CLDFRC \| 1 \|SM P M1 \|0-1 \|Total Cloud Fraction (0-1)
40	CLDPRS \| 1 \|SM PC167M1 \|0-1 \|Cloud Top Pressure (normalized)
41	CLDMAS \| 5 \|SM P LL \|kg/m^2/s \|Cloud-base Mass Flux (kg/m^2/s)
42	DRAG \| 5 \|SM P LL \|kg/m^2/s \|Surface Drag Coefficient (kg/m^2/s)
43	WINDS \| 1 \|SM P L1 \|m/s \|Surface Wind Speed (m/s)
44	TS \| 1 \|SM L1 \|K \|near Surface Air Temperature (K)
45	QS \| 1 \|SM P L1 \|g/kg \|near Surface Specific Humidity (g/kg)
46	ENPREC \| 1 \|SM M1 \|W/m^2 \|Energy flux associated with precip. (snow, rain Temp)
47	ALBVISDF\| 1 \|SM P L1 \|0-1 \|Surface Albedo (Visible band) (0-1)
48	DWNLWG \| 1 \|SM P L1 \|W/m^2 \|Downward Component of Longwave Flux at the Ground (+=dw)
49	SWCLR \| 5 \|SM ML \|K/s \|Clear Sky Temp. Tendency due to Shortwave Radiation
50	LWCLR \| 5 \|SM ML \|K/s \|Clear Sky Temp. Tendency due to Longwave Radiation
51	TSRCLR \| 1 \|SM P U1 \|W/m^2 \|Clear Sky Top-of-atm. net Shortwave Radiation (+=dw)
52	OLRCLR \| 1 \|SM P U1 \|W/m^2 \|Clear Sky Outgoing Longwave Radiation (+=up)
53	SWGCLR \| 1 \|SM P L1 \|W/m^2 \|Clear Sky Net Shortwave Radiation at the Ground (+=dw)
54	LWGCLR \| 1 \|SM L1 \|W/m^2 \|Clear Sky Net Longwave Radiation at the Ground (+=up)
55	UFLUX \| 1 \|UM 184L1 \|N/m^2 \|Zonal Wind Surface Stress (N/m^2)
56	VFLUX \| 1 \|VM 183L1 \|N/m^2 \|Meridional Wind Surface Stress (N/m^2)
57	DTSIMPL \| 1 \|SM P L1 \|K \|Surf. Temp Change after 1 implicit time step
58	\end{verbatim}