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#! /bin/sh
# set -x
# Demos shell for sugoupillaud
# Albena Mateeva, Jan 22, 2001
#---------------------------------------------------------------
# An example reflectivity series in rdemo.asc
#
# 2048 samples corresponding to:
#
# a surface reflection coeficient
# ( r[0]=-1.0 for this example, i.e., free surface )
... | Shell |
#! /bin/sh
# define parent directory
MYHOME=.
# output files
wfp=./pressure
wfr=./radial
wfz=./vertical
outf=./info
# input parameters
tsec=2.048 # length of computed trace (seconds)
fs=0.07 # sampling paramter 0.07<fs<0.12
decay=50.0 # decay factor to avoid time series wraparound
flt=0 # earth flattening flag... | Shell |
#! /bin/sh
set -x
# Computes a PSV seismogram for Mallick-Frazier model 2. Geophysics, 1987
# output files
wfp=./pressure4
wfr=./radial4
wfz=./vertical4
outf=./info4
# input parameters
tsec=14.336 # length of computed trace (seconds)
fs=0.07 # sampling paramter 0.07<fs<0.12
decay=50.0 # decay factor to avoid tim... | Shell |
#! /bin/sh
rm -f info* pressure* vertical* radial* junk* *.ps
| Shell |
#! /bin/sh
# define parent directory
MYHOME=.
# output files
wfp=./pressure
wfr=./radial
wfz=./vertical
outf=./info
# input parameters
tsec=2.048 # length of computed trace (seconds)
fs=0.07 # sampling paramter 0.07<fs<0.12
decay=50.0 # decay factor to avoid time series wraparound
flt=0 # earth flattening flag... | Shell |
#! /bin/sh
# Computes an SH seismogram of a layer over a half space
# output files
wfp=./pressure2
wfr=./radial2
wfz=./vertical2
outf=./info2
# input parameters
tsec=51.2 # length of computed trace (seconds)
fs=0.09 # sampling paramter 0.07<fs<0.12
decay=10.0 # decay factor to avoid time series wraparound
flt=1... | Shell |
#! /bin/sh
set -x
# Shell to generate Model 2 in MULLER's paper. Journal of Geophysics 1985.
# output files
wfp=./pressure1
wfr=./radial1
wfz=./vertical1
outf=./info1
# input parameters
tsec=2.048 # length of computed trace (seconds)
fs=0.3 # sampling paramter 0.07<fs<0.12
decay=50.0 # decay factor to avoid time ... | Shell |
#! /bin/sh
# Computes a PSV seismogram for Kennet, model1, Geophysical Prospecting,
# 27, (1979)
# output files
wfp=./pressure5
wfr=./radial5
wfz=./vertical5
outf=./info5
# input parameters
tsec=8.192 # length of computed trace (seconds)
fs=0.07 # sampling paramter 0.07<fs<0.12
decay=50.0 # decay factor to avoid... | Shell |
#! /bin/sh
# Computes a PSV seismogram of a layer over a half space
# McMechan and Sun's model. Depth filtering of first breaks and ground-roll.
# Geophysics 1991.
# output files
wfp=./pressure3
wfr=./radial3
wfz=./vertical3
outf=./info3
# input parameters
tsec=4.096 # length of computed trace (seconds)
fs=0.07 #... | Shell |
#!/bin/sh
# PSsuwaveform1 - Demo shell script for program SUWAVEFORM
# Author: Nils Maercklin, 2006
#
# This demo shell script shows the generation of AKB or Ricker wavelets
# with different maximum or peak frequencies (PS plots).
# Create empty wavelet output files:
> akb_wavelet.su
> ricker_wavelet.su
# Generate A... | Shell |
#! /bin/sh
# Clean.sh - Remove files created by SUWAVEFORM demos, i.e. by the scripts
# Xsuwaveform1, Xsuwaveform2, PSsuwaveform1, and PSsuwaveform2
# Nils Maercklin, 2006
# Remove data files:
rm -f akb_wavelet.su ricker_wavelet.su \
berlage_wavelet1.su berlage_wavelet2.su
# Remove PS files:
rm -f a... | Shell |
#!/bin/sh
# Xsuwaveform2 - Demo shell script for program SUWAVEFORM
# Author: Nils Maercklin, 2006
#
# This demo shell script shows the generation of Berlage wavelets
# with different time exponent tn or decay factor (X window plots).
# Set constant waveform parameters:
ns=101 # trace length in samples
dt=0.004 ... | Shell |
#!/bin/sh
# PSsuwaveform2 - Demo shell script for program SUWAVEFORM
# Author: Nils Maercklin, 2006
#
# This demo shell script shows the generation of Berlage wavelets
# with different time exponent tn or decay factor (PS plots).
# Set constant waveform parameters:
ns=101 # trace length in samples
dt=0.004 # tim... | Shell |
#!/bin/sh
# Xsuwaveform1 - Demo shell script for program SUWAVEFORM
# Author: Nils Maercklin, 2006
#
# This demo shell script shows the generation of AKB or Ricker wavelets
# with different maximum or peak frequencies (X window plots).
# X window sizes and positions:
WIDTH=500
HEIGHT=700
WIDTHOFF1=50
WIDTHOFF2=600
HE... | Shell |
#! /bin/sh
##### Interactive program to test
##### for model parameters at a specific
##### point within the model
##### This shell asumes that a modelfile
##### is already generated
##### Andreas Rueger CWP 02-03-97
##### Data directory
file=elamod
##### Path to executables
#B=${HOME}/Release/Rays/bin
mo... | Shell |
#! /bin/sh
rm outpar x_t.data elamod* reflect* file* *.bin info1
exit 0
| Shell |
#! /bin/sh
## Andreas Rueger March 02, 1997
## Compute seimic signatures of reflected
## wavefields in anisotropic media
## Type the name of the executable to get
## on-line documentation
### output files
### Change these paths or define your own scratch
### directory
##### Path to executables
#B=${HOME}/Release... | Shell |
#! /bin/sh
## Andreas Rueger March 02, 1997
## Compute seimic signatures of reflected
## wavefields in anisotropic media
## Type the name of the executable to get
## on-line documentation
### output files
### Change these paths or define your own scratch
### directory
##### Path to executables
#B=${HOME}/Release... | Shell |
#! /bin/sh
set -x
## Andreas Rueger March 02, 1997
## Ray tracing in homogeneous anisotropic media
## Type the name of the executable to get
## on-line documentation
### output files
### Change these paths or define your own scratch
### directory
##### Data directory
#SCRATCH=/home/user1/Scratch
#
file=elamod
##... | Shell |
#! /bin/sh
##### Define/display a triangulated model and
##### convert it in a gridded mesh
##### Data directory
#SCRATCH=/home/user1/Scratch
SCRATCH=.
file=$SCRATCH/elamod
##### Path to executables
#B=${HOME}/Release/Rays/bin
##### Define PostScriptViewer
PSPREVIEW=ghostview
elamodel xmin=0 zmin=0 xmax=20.0... | Shell |
#! /bin/sh
# Authors: Jack Cohen, John Stockwell--03/94
demo=synlv
#Remark: Since synlv puts 10^3 in header fields internally,
# use kilo_units in distances and velocities
######Common parameters for demo######
v00=5.0 # P-wave velocity at surface
dvdx=1.0 # velocity gradient (dv/dx)
dvdz=2.0 # velo... | Shell |
#! /bin/sh
# Clean.sh created data files
rm -f *.eps
exit
| Shell |
#! /bin/sh
# Authors: Jack Cohen, John Stockwell--03/94
WIDTH=300
HEIGHT=300
XOFF1=50
YOFF1=50
XOFF2=550
YOFF2=550
#Remark: Since synlv puts 10^3 in header fields internally,
# use kilo_units in distances and velocities
######Common parameters for demo######
v00=5.0 # P-wave velocity at surface
dvdx=1.0 ... | Shell |
#! /bin/sh
susynlv ref="1:0,1;6,1" ref="2:1,3;4,1" |
suxwigb perc=99 interp=1 xcur=2 title="Wedge model"
exit 0
| Shell |
#! /bin/sh
set -x
nt=501 dt=.01 ft=0.0
nx=201 dx=0.05 fx=0.0
DVDZ=.5
DVDX=0.0
ANGXS=30
# default
susynlvfti > junk1
# make synthetic data
susynlvfti > junk2 angxs=$ANGXS \
er=1 ob=0 v00=3.0 delta=.2 epsilon=.5 fpeak=15 \
dvdx=$DVDX dxm=$dx nxm=$nx dt=$dt nt=$nt dvdz=$DVDZ smooth=1 \
ref="1:0.0,1.5;1.0,1.5;2.,3.0;... | Shell |
#! /bin/sh
# X windows output
suximage <junk1 label1="Time (s)" label2="Midpoint (km)" &
suximage <junk2 label1="Time (s)" label2="Midpoint (km)" &
exit 0
| Shell |
#! /bin/sh
rm *.eps junk*
| Shell |
#! /bin/sh
# PostScript output
demo=1
PSPREV=$PSPREVIEWER
supsimage <junk1 label1="Time (s)" label2="Midpoint (km)" \
> demo${demo}.1.eps
supsimage <junk2 label1="Time (s)" label2="Midpoint (km)" \
title="" > demo${demo}.2.eps
if test "$PSPREV" != ""
then
echo "Previewing PostScript files with $PSPREV"
for i in... | 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
# shell for uniformly sampling velocity from a layered model
set -v
nz=501 dz=5 fz=.0 labelz="Depth (m)"
nx=1000 dx=20 fx=0.0 labelx="Distance (m)"
ninf=6 npmax=201
nt=1001
dt=0.004
r1=4
r2=4
input=model.unif2
unif2 < $input ninf=$ninf npmax=$npmax \
nz=$nz dz=$dz fz=$fz nx=$nx dx=$dx fx=$fx \
... | Shell |
#! /bin/sh
# Clean.sh up residue from runs
rm -f *data* *file* *.eps *.su a3333* delta* epsilon* ttime VP0*
| Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=501 dz=5 fz=.0 labelz="Depth (m)"
nx=1000 dx=20 fx=0.0 labelx="Distance (m)"
ninf=6 npmax=201
nt=1001
dt=0.004
#Raytrace
rayt2dantti a3333file=a3333sm VP0file=VP0sm epsilonfile=epsilonsm \
deltafile=deltasm tfile=ttime fxo=0 nxo=401 ... | Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=501 dz=5 fz=.0 labelz="Depth (m)"
nx=1000 dx=20 fx=0.0 labelx="Distance (m)"
ninf=6 npmax=201
nt=1001
dt=0.004
nxm=1001 fxm=0 dxm=20
nxo=1 fxo=0 dxo=10
nx=1001 fx=0 dx=20
nz=51 dz=50 nxb=80 nxd=5
fpeak=20 ls=1 verbose=1
makevel nz=1... | Shell |
#! /bin/sh
# shell for Kirchhoff depth migration
set -v
sukdmig2d<data par=kdmig.par>kd.data
exit
| Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=51 dz=50 fz=.0 labelz="Depth (m)"
nx=81 dx=50 fx=0.0 labelx="Distance (m)"
ninf=0 npmax=201
unif2 <input.unif2 >vfile ninf=$ninf npmax=$npmax \
nz=$nz dz=$dz fz=$fz nx=$nx dx=$dx fx=$fx \
v00=1500
exit 0
| Shell |
#! /bin/sh
WIDTH=300
HEIGHT=300
XOFF1=50
YOFF1=50
XOFF2=500
YOFF2=500
# Plot Synthetic data
suximage < kdsyn.data perc=99.5\
label1="Time (sec)" label2="Midpoint (m)" \
title="Synthesized Data" \
hbox=$HEIGHT wbox=$WIDTH xbox=$XOFF1 ybox=$YOFF1 &
# Plot migration data
n1=501 n2=121 f2=500 d1=3 d2=25
sust... | Shell |
#! /bin/sh
supsimage < data title="Suplane data" > planedata.eps
echo
echo " The output is: planedata.eps"
echo " You may view this with your PostScript Previewer."
exit 0
| Shell |
#! /bin/sh
# Clean.sh up residue from runs
rm -f *data* *file* *.eps
| Shell |
#! /bin/sh
# shell for plotting synthetic data and migrated data
supsimage<kdsyn.data perc=99.5\
label1="Time (s)" label2="Midpoint (m)" \
ybox=4 hbox=4 \
title="Synthesized Data" > syndata.eps
# Plotting migrated data
supsimage<kd.data perc=99.5\
label1="Depth (km)" label2="Midpoint (km)" \
ybox=4 hbox=4 \
... | Shell |
#! /bin/sh
# shell for raytracing travektime
set -v
sustrip < kd.data > data.stripped
sukdsyn2d infile=data.stripped par=kdsyn.par > kdsyn.data
exit
| Shell |
#! /bin/sh
# shell for generating traveltimes by ray tracing
set -v
rayt2d <vfile par=rayt2d.par
exit
| Shell |
#! /bin/sh
# shell for generating a plane data set
set -v
suplane nt=501 dt=0.004 ntr=121 \
dip1=0 dip2=2 dip3=4 \
len1=81 len2=81 len3=81 |
sushw key=sx a=300 b=25 |
sushw key=gx a=700 b=25 >data
exit 0
| Shell |
#! /bin/sh
WIDTH=300
HEIGHT=300
XOFF1=50
YOFF1=50
XOFF2=500
YOFF2=500
suximage < data title="Suplane data" \
hbox=$HEIGHT wbox=$WIDTH xbox=$XOFF1 ybox=$YOFF1 &
exit 0
| Shell |
#! /bin/sh
rm data.seis
exit 0
| Shell |
#! /bin/sh
# The folowing shell generates 126 CMP gathers, each with 125 traces
##############################################
# use either positive or negative dips below
# positive (clockwise) dips
#REF1="1.0:-5,0.2;5,0.2"
#REF2="1.0:-0.5495,0;5,2.0199"
#REF3="1.0:-0.2384,0;5,4.3955"
#REF4="1.0:-0.1155,0;5,8.8603"
... | Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=501 dz=5 fz=.0 labelz="Depth (m)"
nx=1000 dx=20 fx=0.0 labelx="Distance (m)"
ninf=6 npmax=201
nt=1001
dt=0.004
r1=4
r2=4
input=model.unif2
unif2 < $input ninf=$ninf npmax=$npmax \
nz=$nz dz=$dz fz=$fz nx=$nx dx=$dx fx=$fx \
... | Shell |
#! /bin/sh
# Clean.sh up residue from runs
rm -f *data* *file* *.eps *.su a3333* delta* epsilon* ttime VP0*
| Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=501 dz=5 fz=.0 labelz="Depth (m)"
nx=1000 dx=20 fx=0.0 labelx="Distance (m)"
ninf=6 npmax=201
nt=1001
dt=0.004
nxm=1001 fxm=0 dxm=20
nxo=1 fxo=0 dxo=10
nx=1001 fx=0 dx=20
nz=51 dz=50 nxb=80 nxd=5
fpeak=20 ls=1 verbose=1
makevel nz=1... | Shell |
#! /bin/sh
# shell for uniformly sampling velocity from a layered model
set -v
nz=501 dz=5 fz=.0 labelz="Depth (m)"
nx=1000 dx=20 fx=0.0 labelx="Distance (m)"
ninf=6 npmax=201
nt=1001
dt=0.004
#Raytrace
rayt2dan a3333file=a3333sm VP0file=VP0sm epsilonfile=epsilonsm \
deltafile=deltasm tfile=ttime fxo=0 nxo=401 dxo... | Shell |
#! /bin/sh
# shell for Kirchhoff modeling for arbitrary v(x,z)
nx=121 nz=51 dx=50 dz=50 fx=0.00 fz=0.00
# plot velocity profile
xmovie <data.v \
n2=$nx n1=$nz d1=$dz d2=$dx f2=$fx perc=100 \
label1="Depth (m)" label2="Midpoint (m)" \
title="Velocity Model" \
-geometry 600x250+0+25 &
# window and plot synthetic ... | Shell |
#! /bin/sh
# Clean.sh up residue from runs
rm -f data.* *.eps
| Shell |
#! /bin/sh
# make velocity
set -x
nx=121 fx=0.00 dx=50 nz=51 fz=0.00 dz=50
v000=1500 dvdz=0.2 dvdx=0.3
l1c=1000 l2c=2000 exc=1
vlens=1000 tlens=1000 dlens=2500
xlens=2500 ylens=0 zlens=800
vzc=500
makevel nx=$nx fx=$fx dx=$dx nz=$nz fz=$fz dz=$dz \
v000=$v000 dvdz=$dvdz dvdx=$dvdx \
l1c=$l1c l2c=$l2c exc=$exc \
v... | Shell |
#! /bin/sh
# shell for Kirchhoff modeling for arbitrary v(x,z)
demo=synvxz
nx=121 nz=51 dx=50 dz=50 fx=0.00 fz=0.00
# plot velocity profile
psimage <data.v \
n2=$nx n1=$nz d1=$dz d2=$dx f2=$fx perc=100 \
label1="Depth (m)" label2="Midpoint (m)" \
title="Velocity" >${demo}.1.eps
# window and plot synthetic seismo... | Shell |
#! /bin/sh
# shell for Kirchhoff modeling for arbitrary v(x,z)
nt=501 ft=0.0 dt=0.008 tmin=0.2
nxm=331 fxm=-1000 dxm=15
nxo=2 fxo=0 dxo=1000
nx=121 fx=-1500 dx=50
nz=51 dz=50 nxb=80 nxd=5
fpeak=20 ls=1 verbose=1
susynvxz <data.v nt=$nt ft=$ft dt=$dt tmin=$tmin \
nxm=$nxm fxm=$fxm dxm=$dxm \
nxo=$nxo fxo=$fxo dx... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=14
rm -f demo${demo}plot demo${demo}par demo${demo}[1-2].eps cshot1plot \
demo${demo}traces demo${demo}shot
| Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=14
x1beg=-1000 x1end=2000 x2beg=0 x2end=18000
cp param1.1 param1
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+650+0 \
title="Weathering Model" \
label1="Depth (ft)" label2="Range (ft)" \
... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=11
rm -f demo${demo}plot demo${demo}par demo${demo}[1-6].eps cshot1plot \
demo${demo}traces demo${demo}shot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=11
psfile1=demo${demo}1.eps
psfile2=demo${demo}2.eps
psfile3=demo${demo}3.eps
psfile4=demo${demo}4.eps
psfile5=demo${demo}5.eps
psfile6=demo${demo}6.eps
x1beg=0 x1end=2200 x2beg=0 x2end=10000
cp param1.1 param1
cshot1 |
cshotplot >demo${demo}plot outpar=demo$... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=11
x1beg=0 x1end=2200 x2beg=0 x2end=10000
cp param1.1 param1
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 400x250+700+0 \
title="Primary Rays" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=12
rm -f demo${demo}plot demo${demo}par demo${demo}[1-2].eps cshot1plot \
demo${demo}traces demo${demo}shot core
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=12
psfile1=demo${demo}1.eps
psfile2=demo${demo}2.eps
x1beg=-500 x1end=7500 x2beg=0 x2end=12000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth ... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=12
x1beg=-500 x1end=7500 x2beg=0 x2end=12000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+650+0 \
title="Primary Rays" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1end=$x1... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=6
rm -f demo${demo}plot demo${demo}par demo${demo}.eps cshot1plot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=6
psfile=demo${demo}.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=6
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+500+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1... | Shell |
#! /bin/sh
# Master Clean
for i in Demo*
do
cd $i
Clean.sh
cd ..
done
| Shell |
#! /bin/sh
# Clean up residue from runs
demo=9
rm -f demo${demo}plot demo${demo}par demo${demo}[1-2].eps cshot1plot \
demo${demo}traces demo${demo}shot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=9
psfile1=demo${demo}1.eps
psfile2=demo${demo}2.eps
x1beg=0 x1end=5500 x2beg=-3500 x2end=13000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth ... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=9
x1beg=0 x1end=9000 x2beg=-3500 x2end=13000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+650+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
width=600 heig... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=5
rm -f demo${demo}plot demo${demo}par demo${demo}.eps cshot1plot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=5
psfile=demo${demo}.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=5
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+500+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1... | Shell |
#! /bin/sh
# Run all the CSHOT Demos with X
for i in Demo*
do
cd $i
Xcshot
pause
cd ..
done
| Shell |
#! /bin/sh
# Clean up residue from runs
demo=3
rm -f demo${demo}plot demo${demo}par demo${demo}.eps cshot1plot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=3
psfile=demo${demo}.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=3
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+500+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=8
rm -f demo${demo}plot demo${demo}par demo${demo}[1-2].eps cshot1plot \
demo${demo}traces demo${demo}shot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=8
psfile1=demo${demo}1.eps
psfile2=demo${demo}2.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth (... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=8
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+650+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1e... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=10
rm -f demo${demo}plot demo${demo}par demo${demo}[1-2].eps cshot1plot \
demo${demo}traces demo${demo}shot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=10
psfile1=demo${demo}1.eps
psfile2=demo${demo}2.eps
x1beg=0 x1end=12000 x2beg=-333 x2end=16666
cp param1.1 param1
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$dem... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=10
x1beg=0 x1end=12000 x2beg=-333 x2end=16666
cp param1.1 param1
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par style=seismic \
-geometry 600x400-20+70 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2=... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=10
x1beg=0 x1end=12000 x2beg=-333 x2end=16666
cp param1.1 param1
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+650+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=13
rm -f demo${demo}plot demo${demo}par demo${demo}[1-6].eps cshot1plot \
demo${demo}traces demo${demo}shot
| Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=13
x1beg=0 x1end=9000 x2beg=-3500 x2end=13000
cp param1.1 param1
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 400x250+700+0 \
title="Primary Rays" \
label1="Depth (ft)" label2="Range (ft)" \
x1b... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=4
rm -f demo${demo}plot demo${demo}par demo${demo}.eps cshot1plot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=4
psfile=demo${demo}.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=4
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+500+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=7
rm -f demo${demo}plot demo${demo}par demo${demo}.eps cshot1plot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=7
psfile=demo${demo}.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=7
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+500+500 \
title="Rays for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=1
rm -f demo${demo}plot demo${demo}par demo${demo}.eps cshot1plot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=1
psfile=demo${demo}.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
exit
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Model for demo$demo" \
label1="Depth (ft)" label2="Range (... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=1
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+500+500 \
title="Model for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x1... | Shell |
#! /bin/sh
# Clean up residue from runs
demo=2
rm -f demo${demo}plot demo${demo}par demo${demo}.eps cshot1plot
| Shell |
#! /bin/sh
# Run CSHOT with CWP PostScript Graphics
demo=2
psfile=demo${demo}.eps
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
psgraph <demo${demo}plot par=demo${demo}par style=seismic \
title="Model for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" ... | Shell |
#! /bin/sh
# Run CSHOT with CWP X Graphics
demo=2
x1beg=0 x1end=5500 x2beg=-100 x2end=10000
cshot1 |
cshotplot >demo${demo}plot outpar=demo${demo}par
xgraph <demo${demo}plot par=demo${demo}par \
-geometry 600x400+500+500 \
title="Model for demo$demo" \
label1="Depth (ft)" label2="Range (ft)" \
x1beg=$x1beg x... | Shell |
#! /bin/sh
# Run GBmod with Xwindow Graphics
#------------------------------------------------
set -x
binfile=model.bin
unidata=uni.bin
normray=1
normface=40
surface=0
nrays=100
##### Built syncline model (Figure 14)
trimodel xmin=0 zmin=0 xmax=25 zmax=12 maxangle=10 \
normray=$normray normface=$normface nrays=$nr... | Shell |
#! /bin/sh
rm AInterface NShoot.eps XInterface XTfile XZInterface
rm ZInterface model.bin model.eps nray.40.eps nray.bin nrayend.bin outpar
| Shell |
#! /bin/sh
# Run GBmod with Xwindow Graphics
#------------------------------------------------
set -x
binfile=model.bin
unidata=uni.bin
normray=1
normface=40
surface=0
nrays=100
##### Built syncline model (Figure 14)
trimodel xmin=0 zmin=0 xmax=25 zmax=12 maxangle=10 \
normray=$normray normface=$normface nrays=$nr... | Shell |
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