from rsf.proj import *
zmax = 171
xmin = 315
xmax = 930
minv = 1.5
maxv = 3.3
clip = 1.85
Fetch('marmvel.hh',"marm")
Flow('marmvel','marmvel.hh',
'''
dd form=native |
scale rscale=.001 | put
label1=Depth label2=Position unit1=km unit2=km
d1=0.004 d2=0.004
''')
Flow('marm','marmvel','window j1=2 j2=2')
Plot('marm',
'''
window n1=%d n2=%d f2=%d |
grey color=j scalebar=y allpos=y title="Marmousi Model"
barlabel=Velocity barunit=km/s barreverse=y
minval=%g maxval=%g clip=%g bias=%g labelsz=10 titlesz=12 labelfat=6 titlefat=6
''' % (zmax,xmax-xmin+1,xmin,minv,maxv,clip,minv))
Flow('init','marm','math output="1.5+x1"')
Plot('init',
'''
window n1=%d n2=%d f2=%d |
grey color=j scalebar=y allpos=y title="Initial Model"
barlabel=Velocity barunit=km/s barreverse=y
minval=%g maxval=%g clip=%g bias=%g labelsz=10 titlesz=12 labelfat=6 titlefat=6
''' % (zmax,xmax-xmin+1,xmin,minv,maxv,clip,minv))
cgiter = 10
niter = 4
eps = 5
Flow('data','marm','dsreiko')
Result('data',
'''
byte gainpanel=all bar=bar.rsf allpos=y pclip=100 |
grey3 color=j scalebar=y flat=n point1=0.35 point2=0.7
title="DSR Prestack Modeling" barlabel=Traveltime barunit=s
label2=Receiver unit2=km label3=Source unit3=km
screenratio=0.7 labelsz=6 titlesz=8 labelfat=3 titlefat=3
''')
Flow('mask','data',
'''
window n1=1 | math output="abs(x1-x2)" | mask max=6.004 |
window j2=4 | lpad jump=4 | window n2=1151
''')
Flow('nmask','data',
'''
window n1=1 | math output="abs(x1-x2)" | mask min=1.396 max=6.004 |
window j2=4 | lpad jump=4 | window n2=1151 | dd type=float
''')
Flow('noise','nmask',
'''
noise seed=20130516 range=0.6 rep=y |
thr mode=hard thr=0.25 | add mode=p ${SOURCES[0]}
''')
Flow('ndata','noise data',
'''
spray axis=1 n=376 d=0.008 o=0 |
add scale=1,1 ${SOURCES[1]} | math output="abs(input)"
''')
Flow('dsrt gdsrt','init data mask',
'''
dsrtomo reco=${SOURCES[1]} mask=${SOURCES[2]} grad=${TARGETS[1]}
verb=y shape=n cgiter=%d niter=%d eps=%g
''' % (cgiter,niter,eps))
Flow('ndsrt gndsrt','init ndata mask',
'''
dsrtomo reco=${SOURCES[1]} mask=${SOURCES[2]} grad=${TARGETS[1]}
verb=y shape=n cgiter=%d niter=%d eps=%g
''' % (cgiter,niter,eps))
Plot('dsrt',
'''
window n1=%d n2=%d f2=%d |
grey color=j allpos=y scalebar=y title="DSR Tomography"
barlabel=Velocity barunit=km\/s barreverse=y
minval=%g maxval=%g clip=%g bias=%g labelsz=10 titlesz=12 labelfat=6 titlefat=6
''' % (zmax,xmax-xmin+1,xmin,minv,maxv,clip,minv))
Plot('ndsrt',
'''
window n1=%d n2=%d f2=%d |
grey color=j allpos=y scalebar=y title="DSR Tomography"
barlabel=Velocity barunit=km\/s barreverse=y
minval=%g maxval=%g clip=%g bias=%g labelsz=10 titlesz=12 labelfat=6 titlefat=6
''' % (zmax,xmax-xmin+1,xmin,minv,maxv,clip,minv))
Flow('cdsrt',None,
'''
echo 1. 0.370197 0.262643 0.149201 0.078508
n1=5 o1=0 d1=1 data_format=ascii_float in=$TARGET
''')
Plot('cdsrt',
'''
graph wanttitle=n
plotfat=4 labelsz=7 titlesz=9 labelfat=3 titlefat=3
label1="Number of Linearization Updates" unit1= label2="Normalized l2 Misfit" unit2=
screenratio=0.8 screenht=7.5
''')
Flow('cndsrt',None,
'''
echo 1. 0.742392 0.715866 0.700967 0.694760
n1=5 o1=0 d1=1 data_format=ascii_float in=$TARGET
''')
Plot('cndsrt',
'''
graph wanttitle=n
plotfat=4 labelsz=7 titlesz=9 labelfat=3 titlefat=3
label1="Number of Linearization Updates" unit1= label2="Normalized l2 Misfit" unit2=
screenratio=0.8 screenht=7.5
''')
Flow('stemp2',None,
'math n1=288 d1=0.032 o1=0. output=x1 | transp')
Flow('stemp1','stemp2','math output=0.')
Flow('shots','stemp1 stemp2',
'cat axis=1 ${SOURCES[1]} ${SOURCES[0]}')
Flow('receiver toporec','marm shots',
'''
mkrcv shot=${SOURCES[1]} reco=${TARGETS[1]} offset1=750
''')
Flow('ntemp','noise','window j2=4')
ntoporec=[]
for n in range(288):
ntoporec.append('ntoporec_'+str(n))
start=max(n*0.032-6.004,0.)
Flow('ntoporec_'+str(n),'ntemp',
'''
window n2=1 f2=%d | window min1=%g |
pad n1out=1151 | put o1=0.
''' % (n,start))
Flow('ntoporec0',ntoporec,'cat axis=2 ${SOURCES[1:%d]}' % len(ntoporec))
Flow('ntoporec','ntoporec0 toporec','add scale=1,1 ${SOURCES[1]} | math output="abs(input)"')
Flow('stdt gstdt','init shots toporec receiver',
'''
fatomoomp shot=${SOURCES[1]} reco=${SOURCES[2]} recv=${SOURCES[3]}
grad=${TARGETS[1]} shape=n stiter=%d niter=%d eps=%g verb=y
''' % (cgiter,niter,eps))
Flow('nstdt ngstdt','init shots ntoporec receiver',
'''
fatomoomp shot=${SOURCES[1]} reco=${SOURCES[2]} recv=${SOURCES[3]}
grad=${TARGETS[1]} shape=n stiter=%d niter=%d eps=%g verb=y
''' % (cgiter,niter,eps))
Plot('stdt',
'''
window n1=%d n2=%d f2=%d |
grey color=j allpos=y scalebar=y title="Standard Tomography"
barlabel=Velocity barunit=km\/s barreverse=y
minval=%g maxval=%g clip=%g bias=%g labelsz=10 titlesz=12 labelfat=6 titlefat=6
''' % (zmax,xmax-xmin+1,xmin,minv,maxv,clip,minv))
Plot('nstdt',
'''
window n1=%d n2=%d f2=%d |
grey color=j allpos=y scalebar=y title="Standard Tomography"
barlabel=Velocity barunit=km\/s barreverse=y
minval=%g maxval=%g clip=%g bias=%g labelsz=10 titlesz=12 labelfat=6 titlefat=6
''' % (zmax,xmax-xmin+1,xmin,minv,maxv,clip,minv))
Flow('cstdt',None,
'''
echo 1. 0.375924 0.342480 0.234603 0.067037
n1=5 o1=0 d1=1 data_format=ascii_float in=$TARGET
''')
Plot('cstdt','graph wanttitle=n wantaxis=n dash=1 plotfat=4 screenratio=0.8 screenht=7.5')
Flow('cnstdt',None,
'''
echo 1. 0.726534 0.701836 0.689851 0.671497
n1=5 o1=0 d1=1 data_format=ascii_float in=$TARGET
''')
Plot('cnstdt','graph wanttitle=n wantaxis=n dash=1 plotfat=4 screenratio=0.8 screenht=7.5')
Result('marm','marm init','OverUnderAniso')
Result('tomo','stdt dsrt','OverUnderAniso')
Result('ntomo','nstdt ndsrt','OverUnderAniso')
Result('conv','cstdt cdsrt','Overlay')
Result('nconv','cnstdt cndsrt','Overlay')
End() |
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