code stringlengths 1 1.96M | language stringclasses 1
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#! /bin/sh
cd Residual_Refraction_Statics ; Clean.sh
cd ..
cd Residual_Statics ; Clean.sh
exit 0
| Shell |
#! /bin/sh
# clean up files made by demo
rm -f modeldata sortdata
rm -f *.eps
exit
| Shell |
#! /bin/sh
# First make the synthetic data for the sorting demo.
# This data was kludged so gathers would show some lateral variation.
echo "Making synthetic data for demo"
######START OF MODEL######
REF1="1.0:-2,0.2;4,0.2"
REF2="1.0:-2,2.0199;3.5495,0"
REF3="1.0:-2,4.3955;3.2384,0"
REF4="1.0:-2,8.8603;3.1155,0"
dvdz... | Shell |
#! /bin/sh
WIDTH=420
XOFF1=0
XOFF2=430
XOFF3=860
HEIGHT=400
YOFF1=50
YOFF2=500
# First make the synthetic data for the sorting demo.
# This data was kludged so gathers would show some lateral variation.
echo "Making synthetic data for demo"
######START OF MODEL######
REF1="1.0:-2,0.2;4,0.2"
REF2="1.0:-2,2.0199;3.5495,... | Shell |
#! /bin/sh
# Clean.sh - recursively call Clean.sh in the demo directories
# Test back-up dir first (at CWP must run on NeXT-net)
# Take care of subdirectories
for i in `ls`
do
if
[ -d $i ]
then
cd $i
if
[ -f Clean.sh ]
then
Clean.sh
fi
rm -f *~ \#*\# .nfs* *.eps
cd ..
fi
done
# Take care of t... | Shell |
#! /bin/sh
rm -f junk* tmpfile*
exit
| Shell |
#! /bin/sh
indata=data.seis
outdata1=data.fullfold
outdata2=data.sortdown
outdata3=data.unsort
outdata4=data.recgather
outdata5=data.stack
outdata6=data.near
outdata7=data.far
rm -f $indata $outdata1 $outdata2 $outdata3\
$outdata4 $outdata5 $outdata6 $outdata7 temp
exit
| Shell |
#! /bin/sh
# set PostScript Previewer here if environment variable PSPREVIEWER not set
VIEWER=$PSPREVIEWER
GRAPHER=psgraph
IMAGER=supsimage
WIGGER=supswigp
LINES=18
COMMANDS=Commands_Only
indata=data.seis
outdata1=data.fullfold
outdata2=data.sortdown
outdata3=data.unsort
outdata4=data.recgather
outdata5=data.stack
ou... | Shell |
#! /bin/sh
LINES=18
COMMANDS=Commands_Only
WIDTH=400
XOFF1=425
XOFF2=850
HEIGHT=400
YOFF1=50
YOFF2=500
indata=data.seis
outdata1=data.fullfold
outdata2=data.sortdown
outdata3=data.unsort
outdata4=data.recgather
outdata5=data.stack
outdata6=data.near
outdata7=data.far
# First make the synthetic data for the sorting de... | Shell |
#! /bin/sh
LINES=18
COMMANDS=Commands_Only
WIDTH=400
XOFF1=425
XOFF2=850
HEIGHT=400
YOFF1=50
YOFF2=500
indata=data.seis
outdata1=data.fullfold
outdata2=data.sortdown
outdata3=data.unsort
outdata4=data.recgather
outdata5=data.stack
outdata6=data.near
outdata7=data.far
# First make the synthetic data for the sorting de... | Shell |
#! /bin/sh
rm *.su
| Shell |
#! /bin/sh
# Muting data:
#set -x
## Set parameters
data=junk.su # A panel of data to be muted
mutepicks=mutepicks.$data # output file of tmute= and xmute= values
parfile=par.$data
key=tracl
echo "Making test data"
suplane > $data
echo
echo
echo "Begin picking points of a line above which data are to be muted."
... | Shell |
#! /bin/sh
# Clean created data files
rm -f *.eps
exit
| Shell |
#! /bin/sh
# This shell shows how to generate different sweeps using the SUVIBRO
demo=vibro
perc=99
# Generate Linear Sweep
suvibro sweep=1 f1=8. f2=72. tv=10. t1=0.5 t2=1.5 |
supswigp perc=$perc \
title="Linear"\
label1="Time (sec)" label2="" >$demo.1.eps
suvibro sweep=1 f1=8. f2=72. tv=10. t1=0.5 t2=1.5 | suspec... | Shell |
#! /bin/sh
# This shell shows how to generate different sweeps using the SUVIBRO
WIDTH=300
HEIGHT=300
WIDTHOFF1=0
WIDTHOFF2=315
WIDTHOFF3=630
WIDTHOFF4=945
HEIGHTOFF1=5
HEIGHTOFF2=335
HEIGHTOFF3=665
perc=99
# Generate Linear Sweep
suvibro sweep=1 f1=8. f2=72. tv=10. t1=0.5 t2=1.5 |
suxwigb perc=$perc \
title="Line... | Shell |
#! /bin/sh
rm OUT*
| Shell |
#! /bin/sh
cd ./GRM ; Clean.sh
| Shell |
#! /bin/sh
# Sudivstack - Demo shell script for SUDIVSTACK
# Author: Mary Palen-Murphy, CSM Dept of Geophysics, 1995
WIDTH=420
HEIGHT=700
WIDTHOFF1=0
WIDTHOFF2=430
WIDTHOFF3=860
HEIGHTOFF=150
# create one shot record
echo "Create one Shot Record"
susynlv nt=630 dt=0.008 ft=0.0 nxo=81 dxo=.05 fxo=0.05 nxs=1 dxs=.05 ... | Shell |
#! /bin/sh
rm hold* *.ps *.eps record* divstack stack
| Shell |
#! /bin/sh
# Clean.sh - recursively call Clean.sh in the demo directories
# Test back-up dir first (at CWP must run on NeXT-net)
# Take care of subdirectories
for i in `ls`
do
if
[ -d $i ]
then
cd $i
if
[ -f Clean.sh ]
then
Clean.sh
fi
rm -f *~ \#*\# .nfs* *.eps
cd ..
fi
done
# Take care of t... | Shell |
#! /bin/sh
# Supws - Demo shell script for SUPWS (compares sustack, sudivstack, and supws)
# Author: Nils Maercklin, GFZ Potsdam, Germany, 2001
# Credit: Mary Palen-Murphy, CSM Dept of Geophysics, 1995
# (uses parts of demo script "Sudivstack")
# PostScript flag (set to 1 to generate PS output instead of X di... | Shell |
#! /bin/sh
# Clean.sh - Clean up after running demos
rm -f record.su record.noise record.tracf *stack.su core
rm -f supws.eps *stack.eps
exit 0
| Shell |
#! /bin/sh
# Clean.sh - recursively call Clean.sh in the demo directories
# Test back-up dir first (at CWP must run on NeXT-net)
DEMODIR=$CWPROOT/src/demos/Migration_Inversion
# Take care of subdirectories
for i in `ls`
do
if
[ -d $i ]
then
cd $i
if
[ -f Clean.sh ]
then
echo $i
./Clean.sh
fi
r... | Shell |
#! /bin/sh
# shell for plotting synthetic data
n1=51 f1=0 d1=50 n2=61 d2=50 f2=500 n3=41 d3=100
xmovie<tfile n1=$n1 d1=$d1 f1=$f1 n2=$n2 d2=$d2 f2=$f2 n3=$n3 d3=$d3 \
label1="Depth (m)" label2="Midpoint (m)" \
ybox=3 hbox=4 \
bclip=2 d1num=500 d2num=1000 \
title="Traveltime Tables" loop=1 &
# Plotting inverted ... | Shell |
#! /bin/sh
# shell for Kirchhoff depth migration
set -v
sufrac < data phasefac=.25 > data.tmp
sukdmig2d < data.tmp par=kdmig.par>kd.data
exit
| Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=51 dz=50 fz=.0 labelz="Depth (m)"
nx=71 dx=50 fx=0.0 labelx="Distance (m)"
ninf=0 npmax=201
unif2 <input >vfile ninf=$ninf npmax=$npmax \
nz=$nz dz=$dz fz=$fz nx=$nx dx=$dx fx=$fx \
v00=1500 dvdz=0.8
exit 0
| Shell |
#! /bin/sh
# shell for plotting synthetic data
n1=51 f1=0 d1=50 n2=71 d2=50 f2=500 n3=36 d3=100
pscube<tfile n1=$n1 d1=$d1 f1=$f1 n2=$n2 d2=$d2 f2=$f2 n3=$n3 d3=$d3 \
label1="Depth (m)" label2="Midpoint (m)" \
ybox=3 hbox=4 \
bclip=2 d1num=500 d2num=1000 \
title="Traveltime Tables" > time.eps
pscubecontour<tfil... | Shell |
#! /bin/sh
# shell for plotting synthetic data and migrated data
WIDTH=400
HEIGHT=600
WIDTHOFF1=10
WIDTHOFF2=440
WIDTHOFF3=860
HEIGHTOFF1=20
suximage<data perc=99.5 legend=1 units=amp cmap=hsv5 \
label1="Time (s)" label2="Midpoint (m)" \
title="Synthetic Data" \
wbox=$WIDTH hbox=$HEIGHT xbox=$WIDTHOFF2 ybox=$HEIG... | Shell |
#! /bin/sh
# shell for plotting the original and smoothed v(x,z) model
#set -v
nz=51 dz=50 fz=.0 labelz="Depth (m)"
nx=71 dx=50 fx=0000.0 labelx="Distance (m)"
ninf=0 npmax=201
psimage <vfile style=seismic \
n1=$nz d1=$dz f1=$fz grid1=dot label1="$labelz" \
n2=$nx d2=$dx f2=$fx grid2=dot label2="$labelx" \
wbo... | Shell |
#! /bin/sh
# Clean.sh up residue from runs
rm -f *data* tfile *.eps vfile jp*
| Shell |
#! /bin/sh
# shell for plotting synthetic data and migrated data
supsimage<data perc=99.5\
label1="Time (s)" label2="Midpoint (m)" \
ybox=4 hbox=4 \
title="Synthetic Data" > syndata.eps
# Plotting migrated data
supsimage<kd.data perc=99.5\
label1="Depth (km)" label2="Midpoint (km)" \
ybox=4 hbox=4 \
title="K... | Shell |
#! /bin/sh
# shell for Kirchhoff modeling for linear v(x,z)
set -x
nt=725 dt=0.004 ft=0.0 tmin=0.2 nxs=6 dxs=0.3 fxs=0.05
fxo=0.1 dxo=0.025 nxo=60
fpeak=30 er=0 ls=1
susynlv nt=$nt dt=$dt ft=$ft nxs=$nxs dxs=$dxs fxs=$fxs fxo=$fxo\
dxo=$dxo nxo=$nxo tmin=$tmin v00=1.5 dvdx=0.0 dvdz=0.8 \
fpeak=$fpeak er=1 ... | Shell |
#! /bin/sh
# shell for generating traveltimes by ray tracing
set -v
rayt2d <vfile par=rayt2d.par
exit
| Shell |
#! /bin/sh
# shell for plotting the original and smoothed v(x,z) model
#set -v
WIDTH=400
HEIGHT=600
WIDTHOFF1=10
HEIGHTOFF1=20
nz=51 dz=50 fz=.0 labelz="Depth (m)"
nx=71 dx=50 fx=0000.0 labelx="Distance (m)"
ninf=0 npmax=201
ximage <vfile style=seismic legend=1 units=vel cmap=hsv5 \
n1=$nz d1=$dz f1=$fz grid1=d... | Shell |
#! /bin/sh
for i in `ls `
do
if [ -d $i ]
then
cd $i
Clean.sh
cd ..
fi
done
| Shell |
#! /bin/sh
# shell for plotting synthetic data
n1=51 f1=0 d1=50 n2=61 d2=50 f2=500 n3=41 d3=100
xmovie<tfile n1=$n1 d1=$d1 f1=$f1 n2=$n2 d2=$d2 f2=$f2 n3=$n3 d3=$d3 \
label1="Depth (m)" label2="Midpoint (m)" \
ybox=3 hbox=4 \
bclip=2 d1num=500 d2num=1000 \
title="Traveltime Tables" loop=1 &
# Plotting inverted ... | Shell |
#! /bin/sh
# shell for Kirchhoff depth migration
set -v
sukdmig2d<data par=kdmig.par>kd.data
exit
| Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=51 dz=50 fz=.0 labelz="Depth (m)"
nx=81 dx=50 fx=0.0 labelx="Distance (m)"
ninf=0 npmax=201
unif2 <input >vfile ninf=$ninf npmax=$npmax \
nz=$nz dz=$dz fz=$fz nx=$nx dx=$dx fx=$fx \
v00=1500 dvdz=.8
exit 0
| Shell |
#! /bin/sh
# shell for plotting synthetic data
n1=51 f1=0 d1=50 n2=61 d2=50 f2=500 n3=41 d3=100
pscube<tfile n1=$n1 d1=$d1 f1=$f1 n2=$n2 d2=$d2 f2=$f2 n3=$n3 d3=$d3 \
label1="Depth (m)" label2="Midpoint (m)" \
ybox=3 hbox=4 \
bclip=2 d1num=500 d2num=1000 \
title="Traveltime Tables" > time.eps
pscubecontour<tfil... | Shell |
#! /bin/sh
# shell for plotting the original and smoothed v(x,z) model
#set -v
WIDTH=400
HEIGHT=600
WIDTHOFF1=10
WIDTHOFF2=430
WIDTHOFF3=860
HEIGHTOFF1=20
# Plot Synthetic data
nt=501 dt=0.004 ft=0.0 nx=121 dx=25 fx=0
suximage < data d1=$dt f1=$ft d2=$dx f2=$fx perc=99.5\
label1="Time (sec)" label2="Midpoint (... | Shell |
#! /bin/sh
# shell for plotting the original and smoothed v(x,z) model
#set -v
nz=51 dz=50 fz=.0 labelz="Depth (m)"
nx=81 dx=50 fx=0000.0 labelx="Distance (m)"
ninf=0 npmax=201
psimage <vfile style=seismic \
n1=$nz d1=$dz f1=$fz grid1=dot label1="$labelz" \
n2=$nx d2=$dx f2=$fx grid2=dot label2="$labelx" \
wbo... | Shell |
#! /bin/sh
# Clean.sh up residue from runs
rm -f *data tfile *.eps vfile jp* core *.su
| Shell |
#! /bin/sh
# shell for plotting synthetic data and migrated data
supsimage<data perc=99.5\
label1="Time (s)" label2="Midpoint (m)" \
ybox=4 hbox=4 \
title="Synthetic Data" > syndata.eps
# Plotting migrated data
supsimage<kd.data perc=99.5\
label1="Depth (km)" label2="Midpoint (km)" \
ybox=4 hbox=4 \
title="K... | Shell |
#! /bin/sh
# shell for Kirchhoff modeling for linear v(x,z)
set -x
nt=725 dt=0.004 ft=0.0 tmin=0.2 nxs=121 dxs=0.02 fxs=0.05
fxo=0.1 dxo=0.025 nxo=60
fpeak=30 er=0 ls=1
susynlv nt=$nt dt=$dt ft=$ft nxs=$nxs dxs=$dxs fxs=$fxs fxo=$fxo\
dxo=$dxo nxo=$nxo tmin=$tmin v00=1.5 dvdx=0.0 dvdz=0.8 \
fpeak=$fpeak er=1 l... | Shell |
#! /bin/sh
# shell for generating traveltimes by ray tracing
set -v
rayt2d <vfile par=rayt2d.par
exit
| Shell |
#! /bin/sh
# shell for plotting the original and smoothed v(x,z) model
#set -v
WIDTH=400
HEIGHT=600
WIDTHOFF1=10
HEIGHTOFF1=20
nz=51 dz=50 fz=.0 labelz="Depth (m)"
nx=71 dx=50 fx=0000.0 labelx="Distance (m)"
ninf=0 npmax=201
ximage <vfile style=seismic legend=1 units=vel cmap=hsv5 \
n1=$nz d1=$dz f1=$fz grid1=d... | Shell |
#! /bin/sh
# no velocity variation
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## now migrate with a collection of shotpoints
sumigpreffd < 10shots_spike.su nxo=200 nxshot=10 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig... | Shell |
#! /bin/sh
# no velocity variation
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## now migrate with a collection of shotpoints
sumigpreffd < 10shots_spike.su nxo=200 nxshot=10 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig... | Shell |
#! /bin/sh
#### 2D prestack migration of spike data
##
# create spike data at (768,640), 1 shot gather
suimp2d nt=512 nshot=1 nrec=200 dgx=8 dsx=8 x0=640 z0=768 c=2000 |
sukfilter k=.001,.002,.3,.4 amps=0,1,1,0 > 1shot_spike.su
# model data
suximage < 1shot_spike.su title="1 shotgather data " \
xbox=10 ybox=10 wbox=3... | Shell |
#! /bin/sh
# no velocity variation
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## now migrate with a collection of shotpoints
sumigprepspi < 10shots_spike.su nxo=200 nxshot=10 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mi... | Shell |
#! /bin/sh
# no velocity variations
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## split-step (SPlit Step)
sumigpresp < 1shot_spike.su nxo=200 nxshot=1 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig_sp.su
# migration ou... | Shell |
#! /bin/sh
# Clean up residue from runs
rm -f *data data* tfile *.eps vfile* jp* *.su junk*
| Shell |
#! /bin/sh
# no velocity variation
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## now migrate with a collection of shotpoints
sumigprefd < 10shots_spike.su nxo=200 nxshot=10 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig_... | Shell |
#! /bin/sh
# no velocity variation
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## now migrate with a collection of shotpoints
sumigpresp < 10shots_spike.su nxo=200 nxshot=10 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig_... | Shell |
#! /bin/sh
# no velocity variations
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## Fourier Finite Difference
sumigpreffd < 1shot_spike.su nxo=200 nxshot=1 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig_ffd.su
# migrati... | Shell |
#! /bin/sh
# no velocity variations
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## Finite difference migration
sumigprefd < 1shot_spike.su nxo=200 nxshot=1 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig_fd.su
# migratio... | Shell |
#! /bin/sh
# no velocity variations
# make background wavespeed
makevel nx=200 nz=1024 v000=2000.0 dx=8 dz=1.0 dvdx=0.0 dvdz=0.0 >vfile1
transp <vfile1 n1=200>vfile2
## Phase Shift Plus Interpolation
sumigprepspi < 1shot_spike.su nxo=200 nxshot=1 nz=1024 \
dx=8 dz=1.0 fmax=50 vfile=vfile2 > prestack_mig_pspi.su
# ... | Shell |
#!/bin/bash
# generate test dataset
susynlv nt=511 dt=0.002 nxo=401 dxo=0.025 fxo=0 nxs=601 dxs=0.0125 \
fxs=0 x0=0 z0=0 v00=1.5 dvdz=1 \
ref="1:-10,0.3;10,0.3" \
ref="1:-10,0.6;10,0.6" \
ref="-7,4.37;5,0" \
ref="-26.5,26.85;5.5,0" \
ref="-6,20.78;6.0,0" \
ref="1:-5.5,68.06;6.5,0" fpeak=25 |
sugain gpow=0.6 > shot_da... | Shell |
#! /bin/sh
# Clean up residue from runs
rm -f *data data* tfile *.eps vfile* jp* *.su junk*
| Shell |
#!/bin/sh
#Input CMP gather with only positive offsets
file1="shot_dat1.su"
#taup transform parameters
pmin=0
pmax=0.002
np=101
dx=12.5 #Separation between adjacent traces on a CMP gather (m)
cmps=601 #Number of CMPs
cmpd2=0.0125 #distance between adjacent CMP locations (km)
#Formation of constant ray parameter sec... | Shell |
#! /bin/sh
# Clean created data files
rm -f syndata* *.eps
exit
| Shell |
#! /bin/sh
#### shell for sugazmig, sumigps
#### Author: John Stockwell 7 Apr 1993
demo=gazdag
perc=99
#### Example 1 --- compute and display impulse response
### use suspike to make test data
n1=64
n2=32
suspike nspk=3 it1=16 ix1=16 it2=32 ix2=16 it3=48 ix3=16 |
sushw key=dt,d2 a=50000,.05 >syndata1
supsimage <synd... | Shell |
#! /bin/sh
#### shell for sugazmig, sumigps
#### Author: John Stockwell 7 Apr 1993
WIDTH=420
HEIGHT=300
XOFF1=0
XOFF2=430
XOFF3=860
YOFF1=5
YOFF2=335
YOFF3=665
perc=99
#### Example 1 --- compute and display impulse response
### use suspike to make test data
n1=64
n2=32
suspike nspk=3 it1=16 ix1=16 it2=32 ix2=16 it3=... | Shell |
#! /bin/sh
rm junk* tttss vt.F *.eps
| Shell |
#! /bin/sh
set -x
eps1out=data.eps
eps2out=mig.eps
nt=401 dt=.01 ft=0.0
nx=201 dx=0.04 DX=40 fx=0.0
DVDZ=.6
TRISO=0
DVDX=0.0
ANGXS=0
# make synthetic data
susynlvfti >junksss angxs=$ANGXS er=1 ob=0 v00=1.5 delta=0.0 epsilon=0.2 fpeak=10 dvdx=0 dxm=$dx nxm=$nx dt=$dt nt=$nt dvdz=$DVDZ smooth=1 \
ref="1:0.0,.5;1.0,.5;2... | Shell |
#! /bin/sh
set -x
eps1out=data.eps
eps2out=mig.eps
nt=401 dt=.01 ft=0.0
nx=201 dx=0.04 DX=40 fx=0.0
DVDZ=.6
TRISO=0
DVDX=0.0
ANGXS=0
# make synthetic data
susynlvfti >junksss angxs=$ANGXS er=1 ob=0 v00=1.5 delta=0.0 epsilon=0.2 fpeak=10 dvdx=0 dxm=$dx nxm=$nx dt=$dt nt=$nt dvdz=$DVDZ smooth=1 \
ref="1:0.0,.5;1.0,.5;2... | Shell |
#! /bin/sh
# Clean.sh - recursively call Clean.sh in the demo directories
# Test back-up dir first (at CWP must run on NeXT-net)
# Take care of subdirectories
for i in `ls`
do
if
[ -d $i ]
then
cd $i
if
[ -f Clean.sh ]
then
Clean.sh
fi
rm -f *~ \#*\# .nfs* *.eps
cd ..
fi
done
# Take care of t... | Shell |
#! /bin/sh
# Clean up local directory
cd model.dir
rm -f INSTALL *junk* makesyn makevel *.eps
cd ../miggbzo.dir
rm -f INSTALL *junk* makesyn makevel *.eps
| Shell |
#! /bin/sh
#set -x
WIDTH=600
HEIGHT=600
XOFF1=0
YOFF1=0
XOFF2=650
YOFF2=650
cd model.dir
make
demo=01
nt=101 dt=1.0 ft=0.0 dtsegy=1000000
nx=101 dx=1.0 fx=0.0
nz=101 dz=1.0 fz=0.0
# make velocity function
makevel >junkv \
nx=$nx dx=$dx fx=$fx nz=$nz dz=$dz fz=$fz \
v000=2.0 dvdx=0.0 dvdz=0.0
# make synthet... | Shell |
#! /bin/sh
set -x
WIDTH=600
HEIGHT=600
XOFF1=0
YOFF1=0
XOFF2=650
YOFF2=650
demo=1
# necessary parameters
nt=101 dt=1.0 ft=0.0 dtsegy=1000000
nx=101 dx=1.0 fx=0.0
nz=101 dz=1.0 fz=0.0
# make velocity function
cd miggbzo.dir
# Gaussian beam migration
sumiggbzo <junks.su >junkmgb vfile=junkv \
dt=1.0 nz=$nz dz=$d... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=5
rm -f demo${demo}plot demo${demo}par demo${demo}psfile[1-6] cshot1plot \
demo${demo}shot
| Shell |
#! /bin/sh
# Clean up residue from runs
demo=5
rm -f record.cwp
(cd model.dir; Clean)
(cd miggbzo.dir; Clean)
| Shell |
#! /bin/sh
WIDTH=600
HEIGHT=600
XOFF1=0
YOFF1=0
XOFF2=650
YOFF2=650
demo=5
# Examine model with CSHOT, use CWP X Graphics for display
# Change Data/modelgeometry to move subsurface shot around, etc.
# Display the model with subsurface rays
############
cd model.dir # where model stuff is
############
cp param1.mod... | Shell |
#! /bin/sh
# Miggbzo -- apply MIGration by Gaussian Beams for Zero Offset
set -x
demo=5
nt=500 dt=.004 ft=0.0 dtsegy=4000
nx=250 dx=80 fx=0.0
nz=500 dz=20 fz=0.0
#fmin=10 fmax=50 # see param2 in model.dir
# make velocity function
cd miggbzo.dir
# create the background velocity models
Unif2
# put su headers o... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=5
rm -f demo${demo}traces infile.v junk.su junkmgb* junkv* unif2 smo2d INSTALL
| Shell |
#! /bin/sh
# shell for running unif2 --- uniformly sampled Cshot model
# data is smoothed with smo2d
set -v
nx=250 dx=80 fx=0.0 labelx="Distance (km)"
nz=500 dz=20 fz=.0 labelz="Depth (km)"
ninf=5 npmax=201
xsmoothing=10 zsmoothing=10
# echo the ../model.dir/model file; take first 2 columns of data
cat ../model.... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=4
rm -f demo${demo}plot demo${demo}par demo${demo}psfile[1-6] cshot1plot \
demo${demo}shot
| Shell |
#! /bin/sh
# Clean up residue from runs
demo=4
rm -f record.cwp
(cd model.dir; Clean)
(cd miggbzo.dir; Clean)
| Shell |
#! /bin/sh
WIDTH=600
HEIGHT=600
XOFF1=0
YOFF1=0
XOFF2=650
YOFF2=650
demo=4
# Examine model with CSHOT, use CWP X Graphics for display
# Change Data/modelgeometry to move subsurface shot around, etc.
# Display the model with subsurface rays
############
cd model.dir # where model stuff is
############
cp param1.mod... | Shell |
#! /bin/sh
# Miggbzo -- apply MIGration by Gaussian Beams for Zero Offset
set -x
demo=4
nt=500 dt=.004 ft=0.0 dtsegy=4000
nx=250 dx=80 fx=0.0
nz=500 dz=20 fz=0.0
#fmin=10 fmax=50 # see param2 in model.dir
# make velocity function
cd miggbzo.dir
# create the background velocity models
Unisam2
# put su headers... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=4
rm -f demo${demo}traces infile.v junk.su junkmgb* junkv*
| Shell |
#! /bin/sh
# Shell: Unisam2
# use unisam2 to make a uniformly sampled wavespeed profiles
# Author: John Stockwell, 27 August 1992
set -x
# Background Velocity Model 1
# constant wavespeed (of 11750) model 250x500 samples
echo "11750" > junkv # make ascii data
a2b < junkv n1=1 > infile.v # convert... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=2
rm -f demo${demo}plot demo${demo}par demo${demo}psfile[1-6] cshot1plot \
demo${demo}shot
| Shell |
#! /bin/sh
# Clean up residue from runs
demo=2
rm -f record.cwp
(cd model.dir; Clean.sh)
(cd miggbzo.dir; Clean.sh)
| Shell |
#! /bin/sh
WIDTH=600
HEIGHT=600
XOFF1=0
YOFF1=0
XOFF2=650
YOFF2=650
demo=2
# Examine model with CSHOT, use CWP X Graphics for display
# Change Data/modelgeometry to move subsurface shot around, etc.
# Display the model with subsurface rays
############
cd model.dir # where model stuff is
############
cp param1.mod... | Shell |
#! /bin/sh
# Miggbzo -- apply MIGration by Gaussian Beams for Zero Offset
set -x
WIDTH=600
HEIGHT=600
XOFF1=0
YOFF1=0
XOFF2=650
YOFF2=650
demo=2
nt=500 dt=.004 ft=0.0 dtsegy=4000
nx=180 dx=20 fx=0.0
nz=500 dz=5 fz=0.0
#fmin=10 fmax=50 # see param2 in model.dir
# make velocity function
cd miggbzo.dir
# create ... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=2
rm -f demo${demo}traces infile.v junk.su junkmgb* junkv*
| Shell |
#! /bin/sh
# Shell: Unisam2
# use unisam2 to make a uniformly sampled wavespeed profiles
# Author: John Stockwell, 27 August 1992
set -x
# Background Velocity Model 1
# constant wavespeed (of 3000) model 180x500 samples
echo "3000" > junkv # make ascii data
a2b < junkv n1=1 > infile.v # convert t... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=3
rm -f demo${demo}plot demo${demo}par demo${demo}psfile[1-6] cshot1plot \
demo${demo}shot
| Shell |
#! /bin/sh
# Clean up residue from runs
demo=3
rm -f record.cwp
(cd model.dir; Clean.sh)
(cd miggbzo.dir; Clean.sh)
| Shell |
#! /bin/sh
demo=3
# Examine model with CSHOT, use CWP X Graphics for display
# Change Data/modelgeometry to move subsurface shot around, etc.
# Display the model with subsurface rays
############
cd model.dir # where model stuff is
############
cp param1.model param1
cshot1 |
cshotplot >demo${demo}plot outpar=dem... | Shell |
#! /bin/sh
# Miggbzo -- apply MIGration by Gaussian Beams for Zero Offset
set -x
demo=3
nt=500 dt=.004 ft=0.0 dtsegy=4000
nx=180 dx=20 fx=0.0
nz=500 dz=5 fz=0.0
#fmin=10 fmax=50 # see param2 in model.dir
# make velocity function
cd miggbzo.dir
# create the background velocity models
Unif2
# put su headers on... | Shell |
#! /bin/sh
# shell for running unif2 --- uniformly sampled Cshot model
set -v
nx=180 dx=20 fx=0.0 labelx="Distance (km)"
nz=500 dz=5 fz=.0 labelz="Depth (km)"
ninf=3 npmax=201
xsmoothing=10 zsmoothing=10
# echo the ../model.dir/model file; take first 2 columns of data
cat ../model.dir/model | awk '{ print $1 " "... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=3
rm -f demo${demo}traces infile.v junk.su junkmgb* junkv* unif2 smo2d INSTALL *.bin
| Shell |
#! /bin/sh
rm -rf vfile *.su *.ps
exit
| Shell |
#! /bin/sh
#
set -x
nt=300 dt=0.004 ft=0.0 nxm=150 dxm=0.01 fxm=0.0 dxo=0 nxo=1 fxo=0.0
fpeak=20 ls=0 dvdx=0.2 dvdz=0.5 ndpfz=5 v00=2.0
pert=0 ob=1 er=0
DIR=.
output=$DIR/rawdatapspi.su
migdata=$DIR/datamigpspi.su
vfile=$DIR/vfile
susynlv nt=$nt dt=$dt ft=$ft fpeak=$fpeak ls=1 verbose=1 smooth=0\
nxm=$nxm dxm=$dx... | Shell |
#! /bin/sh
#
set -x
nt=300 dt=0.004 ft=0.0 nxm=100 dxm=0.01 fxm=0.0 dxo=0 nxo=1 fxo=0.0
fpeak=20 ls=0 dvdx=0.5 dvdz=0.5 ndpfz=5 v00=2.0
pert=0 ob=1 er=0
DIR=.
output=$DIR/rawdatapspi.su
migdata=$DIR/datamigpspi.su
migps=$DIR/migpspi.ps
vfile=$DIR/vfile
T1=$DIR/pspi1.ps
T2=$DIR/pspi2.ps
susynlv nt=$nt dt=$dt ft=$ft... | Shell |
#! /bin/sh
rm -rf vfile* *.su *.ps
exit
| Shell |
#! /bin/sh
#
set -x
nt=300 dt=0.004 ft=0.0 nxm=150 dxm=0.01 fxm=0.0 dxo=0 nxo=1 fxo=0.0
fpeak=20 ls=0 dvdx=0.2 dvdz=0.5 ndpfz=5 v00=2.0
pert=0 ob=1 er=0
DIR=.
output=$DIR/rawdatasplit.su
migdata=$DIR/datamigsplit.su
vfile=$DIR/vfile
susynlv nt=$nt dt=$dt ft=$ft fpeak=$fpeak ls=1 verbose=1 smooth=0\
nxm=$nxm dxm=$... | Shell |
#! /bin/sh
#
set -x
nt=300 dt=0.004 ft=0.0 nxm=100 dxm=0.01 fxm=0.0 dxo=0 nxo=1 fxo=0.0
fpeak=20 ls=0 dvdx=0.5 dvdz=0.5 ndpfz=5 v00=2.0
pert=0 ob=1 er=0
DIR=.
output=$DIR/rawdatasplit.su
migdata=$DIR/datamigsplit.su
migps=$DIR/migsplit.ps
vfile=$DIR/vfile
T1=$DIR/split1.ps
T2=$DIR/split2.ps
susynlv nt=$nt dt=$dt f... | Shell |
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