; This Streamer input file shows how to use a BRDF file to calculate AVHRR
; channels 1 albedo.  It also illustrates the use of the print statement.
OPTIONS
.FALSE.                      ; Compute fluxes (or radiances)?        (FLUXES)
.false.                      ; Include thermal emission in band 106? (IR106)
.FALSE.                      ; Compute cloud forcing?                (CLDFRC)
8 4                          ; Number of streams, short and long     (NSTR*)
24                           ; Number of Legendre coeff.             (NCOEF)
.FALSE.                      ; Include gaseous absorption?           (GASABS)
.TRUE.                       ; Include Rayleigh scatter (shortwave)? (RAYLISHRT)
7                            ; Surface albedo control                (ALBTYPE)
4                            ; Surface emissivity control            (EMISSTYPE)
6 .FALSE.                    ; Std prof; extend input profile to 100 km?
5 1                          ; Aerosol model and profile
1 2 3 1 1 3 4                ; Height, temp, wv, oz, cloud units, band spec.
3                            ; Output levels control
.false.                      ; Descriptive output desired?
<file name>
.true.                       ; User-customized output?
testbrdf1.out
avhrr-12.wts
.FALSE.                      ; Read cloud optical properties?
<file name>
snowbrdf.dat
CPRINT channel, zen, brdfscaler, satalb(1,1), satalb(2,1), \
  satalb(3,1), satalb(1,2), satalb(2,2), satalb(3,2)
case
Cloudy, April conditions, AVHRR channel 1
92  4 28 22.0  72.88  144.50 60.0
3 0.766 0.94 1.0 2 10.0 170.0
1
0.7
-999., 0.99                                     ; tsurf, emiss
2 1 0.4 999. 530.0 999 5.0 1 0 10.0 0.20 999 999 999
  2 0.2 999. 300.0 999 0.5 1 1 50.0 0.01 999 999 999
0                                                 ; Cloud overlap
2 2 2 2 2 2 0 1.0 1.0 1.0 1.0 1.0 1.0