Changes between Version 51 and Version 52 of doc/app/iofiles/pids

Timestamp:

May 24, 2018 3:48:16 PM (7 years ago)

Author:

suehring

Comment:

--

doc/app/iofiles/pids

@@ -954 +954 @@
 }}}
 {{{#!td
-Boundary condition at left model boundary for the potential temperature.  
+Boundary condition at left (west) model boundary for the potential temperature.  
 Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
 }}}
@@ -969 +969 @@
 }}}
 {{{#!td
-Boundary condition at left model boundary for the mixing ratio.  
+Boundary condition at left (west) model boundary for the mixing ratio.  
 Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
 }}}
@@ -984 +984 @@
 }}}
 {{{#!td
-Boundary condition at left model boundary for the wind component in x-direction.  
+Boundary condition at left (west) model boundary for the wind component in x-direction.  
 Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
 }}}
@@ -999 +999 @@
 }}}
 {{{#!td
-Boundary condition at left model boundary for the wind component in y-direction.  
+Boundary condition at left (west) model boundary for the wind component in y-direction.  
 Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
 }}}
@@ -1014 +1014 @@
 }}}
 {{{#!td
-Boundary condition at left model boundary for the wind component in z-direction.  
-Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
-}}}
-
+Boundary condition at left (west) model boundary for the wind component in z-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_right_pt '''ls_forcing_right_pt''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at right model boundary for the potential temperature.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_right_qv '''ls_forcing_right_qv''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at right (east) model boundary for the mixing ratio.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_right_u '''ls_forcing_right_u''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at right (east) model boundary for the wind component in x-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_right_v '''ls_forcing_right_v''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at right (east) model boundary for the wind component in y-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_right_w '''ls_forcing_right_w''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at right (east) model boundary for the wind component in z-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_front_pt '''ls_forcing_front_pt''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at front (south) model boundary for the potential temperature.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_front_qv '''ls_forcing_front_qv''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at front (south) model boundary for the mixing ratio.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_front_u '''ls_forcing_front_u''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at front (south) model boundary for the wind component in x-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_front_v '''ls_forcing_front_v''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at front (south) model boundary for the wind component in y-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_front_w '''ls_forcing_front_w''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at front (south) model boundary for the wind component in z-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_back_pt '''ls_forcing_back_pt''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at back (north) model boundary for the potential temperature.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_back_qv '''ls_forcing_back_qv''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at back (north) model boundary for the mixing ratio.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_back_u '''ls_forcing_back_u''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at back (north) model boundary for the wind component in x-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_back_v '''ls_forcing_back_v''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at back (north) model boundary for the wind component in y-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_back_w '''ls_forcing_back_w''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at back (north) model boundary for the wind component in z-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+
+
+
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_top_pt '''ls_forcing_top_pt''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at top model boundary for the potential temperature.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_top_qv '''ls_forcing_top_qv''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at top model boundary for the mixing ratio.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_top_u '''ls_forcing_top_u''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at top model boundary for the wind component in x-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_top_v '''ls_forcing_top_v''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at top model boundary for the wind component in y-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}
+|----------------
+{{{#!td style="vertical-align:top;width: 150px"
+[=#ls_forcing_top_w '''ls_forcing_top_w''']//
+(time,z)
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+NC_FLOAT
+}}}
+{{{#!td style="vertical-align:top;width: 50px"
+none
+}}}
+{{{#!td
+Boundary condition at top model boundary for the wind component in z-direction.  
+Requires non-cyclic boundary conditions as well as [../../inipar#forcing forcing] = .T. to become effective.  
+}}}