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PIcontrol.py
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PIcontrol.py
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# Explicit feedback for climate modeling
# Copyright (C) 2020 Ben Kravitz
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
# Sample control parameters file
#
# Written by Ben Kravitz ([email protected] or [email protected])
# Last updated 11 July 2019
#
# This script provides information about the feedback algorithm. All of this
# is user-customizable. The other parts of the script will give you outvals,
# lats, lons, and times. The output of this script should be a list called
# nlvals, which consists of pairs. The first item in the pair is the name
# of the namelist value. The second item is the value itself as a string.
#
# This script is written in native python format. Be careful with brackets [],
# white space, and making sure everything that needs to be a string is actually
# a string by putting it in quotes ''. All lines beginning with # are comments.
#### USER-SPECIFIED CONTROL PARAMETERS ####
#refvals=[288.13,0.76,-5.98] reference values for CESM2(WACCM6) (Tilmes et al. 2020) 2020-2039
refvals=[288.64,0.8767,-5.89] # updated to be average over years 2010-2029
new_refvals=[288.14,0.8497,-5.90] # new target values: averages during the years 2000-2019 (in which T0 is ~0.5 degrees lower than the old targets)
#new_refvals=[287.64,0.7348,-5.97] # new target values: averages during the years 1984-2003 (in which T0 is ~1.0 degrees lower than the old targets)
#refvals=[288.21,0.594,-6.006] # new version of the model (GLENS values)
kivals=[0.0183,0.0753,0.3120]
kpvals=[0.0183,0.0753,0.3120]
firstyear=2035
baseyear=2030
x_ramp = 5.0 # defines a range of years over which the feedback is ramped up
#### USER SPECIFIED CALCULATIONS ####
logfilename='ControlLog_'+runname+'.txt'
logheader=['Timestamp','dT0','sum(dT0)','dT1','sum(dT1)','dT2','sum(dT2)','L0','L1N','L1S','L2','30S(Tg)','15S(Tg)','15N(Tg)','30N(Tg)']
firsttime=0
if os.path.exists(maindir+'/'+logfilename)==False:
firsttime=1
else:
loglines=readlog(maindir+'/'+logfilename)
w=makeweights(lats,lons)
T0=numpy.mean(gmean(outvals[0],w))
T1=numpy.mean(l1mean(outvals[0],w,lats))
T2=numpy.mean(l2mean(outvals[0],w,lats))
de=numpy.array([T0-refvals[0],T1-refvals[1],T2-refvals[2]]) # error terms
if firsttime==1:
timestamp=firstyear
sumde=de
sumdt2=de[2]
else:
timestamp=int(loglines[-1][0])+1
sumdt0=float(loglines[-1][2])+(T0-refvals[0])
sumdt1=float(loglines[-1][4])+(T1-refvals[1])
sumdt2=float(loglines[-1][6])+(T2-refvals[2])
sumde=numpy.array([sumdt0,sumdt1,sumdt2])
dt=timestamp-baseyear
dt2=timestamp-firstyear
# feedforward
#l0hat=0.011*dt
#l1hat=-0.005*dt
#l2hat=0.006*dt
# updated based on feedback simulation
l0hat=0.00347*dt
l1hat=-0.000*dt
l2hat=0.00*dt
ramp_up = 1.0
if (dt2<x_ramp):
ramp_up = dt2 / x_ramp
# feedback
l0kp1=(kpvals[0]*de[0]+kivals[0]*sumde[0])*ramp_up
l1kp1=(kpvals[1]*de[1]+kivals[1]*sumde[1]-0.5*l0kp1)*ramp_up
l2kp1=(kpvals[2]*de[2]+kivals[2]*sumde[2]-l0kp1)*ramp_up
# all of the feeds
l0step4=l0kp1+l0hat
l1step4=l1kp1+l1hat
l2step4=l2kp1+l2hat
l0=max(l0step4,0)
l1n=min(max(l1step4,0),l0)
l1s=min(max(-l1step4,0),l0)
l2=min(max(l2step4,0),l0-l1s-l1n)
ell=numpy.array([[l0],[l1n],[l1s],[l2]])
# preventing integrator wind-up
if (l2==(l0-l1s-l1n)):
sumdt2=sumdt2-(T2-refvals[2])
sumde[2]=sumdt2
M=numpy.array([[0,30,30,0],[0,0,45,20],[20,45,0,0],[40,0,0,40]])
F=numpy.array([[1,1,1,1],[0,1,0,0],[0,0,1,0],[0,0,0,1]])
q=numpy.dot(numpy.dot(numpy.transpose(M),numpy.linalg.inv(F)),ell)
for k in range(len(q)):
q[k]=max(q[k],0)
newline=[str(timestamp),str(de[0]),str(sumde[0]),str(de[1]),str(sumde[1]),str(de[2]),str(sumde[2]),str(l0),str(l1n),str(l1s),str(l2),str(q[0])[1:-1],str(q[1])[1:-1],str(q[2])[1:-1],str(q[3])[1:-1]]
if firsttime==1:
linestowrite=[logheader,newline]
else:
linestowrite=[]
for k in range(len(loglines)):
linestowrite.append(loglines[k])
linestowrite.append(newline)
writelog(maindir+'/'+logfilename,linestowrite)
#### USER SPECIFIED OUTPUT ####
nlname1="/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_30.6S_180E_0.95x1.25_cANN210319.nc"
nlname2="/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_15.6S_180E_0.95x1.25_cANN210319.nc"
nlname3="/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_15.6N_180E_0.95x1.25_cANN210319.nc"
nlname4="/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_30.6N_180E_0.95x1.25_cANN210319.nc"
nlval1=" 'SO2 -> "+str(q[0])[1:-1]+"*/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_30.6S_180E_0.95x1.25_cANN210319.nc'"+"\n"
nlval2=" 'SO2 -> "+str(q[1])[1:-1]+"*/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_15.6S_180E_0.95x1.25_cANN210319.nc',"+"\n"
nlval3=" 'SO2 -> "+str(q[2])[1:-1]+"*/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_15.6N_180E_0.95x1.25_cANN210319.nc',"+"\n"
nlval4=" 'SO2 -> "+str(q[3])[1:-1]+"*/glade/work/geostrat/injection_files/SO2_geoeng_2020-2100_serial_1Tg_21.9-22.1km_30.6N_180E_0.95x1.25_cANN210319.nc',"+"\n"
nlvals=[nlname1,nlval1,nlname2,nlval2,nlname3,nlval3,nlname4,nlval4]