Python calcOBS_PolarCap Examples

Programming Language: Python

Namespace/Package Name: read_OBS

Method/Function: calcOBS_PolarCap

Examples at hotexamples.com: 2

Python calcOBS_PolarCap - 2 examples found. These are the top rated real world Python examples of read_OBS.calcOBS_PolarCap extracted from open source projects. You can rate examples to help us improve the quality of examples.

Example #1

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File: plot_EmergentConstraints_SHI.py Project: muskanmahajan37/AA

    ### Read in model data
    polarave = []
    high = []
    for i in range(len(runnames)):
        polaraveq = CAP.PolarCap(runnamesdata[i], variable, level, latpolar,
                                 period)
        highq = SH.SHI(runnamesdata[i], period)
        polarave.append(polaraveq)
        high.append(highq)
    ###########################################################################
    ### Read in reanalysis data
    years = np.arange(1979, 2019 + 1, 1)
    late, lone, leve, thicke = REAN.readOBS('ERA5', variable, level, period)
    late, lone, leve, slpe = REAN.readOBS('ERA5', 'SLP', level, period)
    she = REAN.calcOBS_SHI(slpe, late, lone)
    vare = REAN.calcOBS_PolarCap(thicke, late, lone, latpolar)

    latrr, lonrr, levr, thickr = REAN.readOBS('NCEP1', variable, level, period)
    latr, lonr, levr, slpr = REAN.readOBS('NCEP1', 'SLP', level, period)
    shr = REAN.calcOBS_SHI(slpr, latr, lonr)
    varr = REAN.calcOBS_PolarCap(thickr, latrr, lonrr, latpolar)

###############################################################################
###############################################################################
###############################################################################
### Calculate ensemble means
meanPOL = np.empty((len(polarave)))
meanSHI = np.empty((len(high)))
for i in range(len(runnames)):
    meanPOL[i] = np.nanmean(polarave[i])
    meanSHI[i] = np.nanmean(high[i])

Example #2

Show file

 ###########################################################################
 ### Read in model data for E3SM
 polarave_E3SM = []
 high_E3SM = []
 for i in range(len(runnames_E3SM)):
     polaraveq_E3SM = CAP.PolarCap(runnamesdata_E3SM[i],variable,level,latpolar,period)
     highq_E3SM = SH.SHI(runnamesdata_E3SM[i],period)
     polarave_E3SM.append(polaraveq_E3SM)
     high_E3SM.append(highq_E3SM)
 ###########################################################################
 ### Read in reanalysis data
 years = np.arange(1979,2019+1,1)
 late,lone,leve,thicke = REAN.readOBS('ERA5',variable,level,period)
 late,lone,leve,slpe = REAN.readOBS('ERA5','SLP',level,period)
 she = REAN.calcOBS_SHI(slpe,late,lone)
 vare= REAN.calcOBS_PolarCap(thicke,late,lone,latpolar)
 
 latrr,lonrr,levr,thickr = REAN.readOBS('NCEP1',variable,level,period)
 latr,lonr,levr,slpr = REAN.readOBS('NCEP1','SLP',level,period)
 shr = REAN.calcOBS_SHI(slpr,latr,lonr)
 varr= REAN.calcOBS_PolarCap(thickr,latrr,lonrr,latpolar)
 
 ###########################################################################
 ### Read in AMIP data    
 yearsAA = np.arange(1979,2016+1,1)
 lataa,lonaa,timeaa,levaa,t_AA = AMAA.readAMIPAA(variable,'AMIP-AA',level,False,True,period)
 lataa,lonaa,timeaa,levaa,slp_AA = AMAA.readAMIPAA('SLP','AMIP-AA',level,False,True,period)
 t_AAe = np.nanmean(t_AA,axis=0)
 slp_AAe = np.nanmean(slp_AA,axis=0)
 sh_AA = REAN.calcOBS_SHI(slp_AAe,lataa,lonaa)
 varr_AA = REAN.calcOBS_PolarCap(t_AAe,lataa,lonaa,latpolar)