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Commit 5f9cb440 authored by Xavier Adriaens's avatar Xavier Adriaens
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Delete old input files

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#!/bin/bash
#
#SBATCH --job-name=paper2_extended_concrete2_inversion_ssm_lbfgs
#SBATCH --output=paper2_extended_concrete2_inversion_ssm_lbfgs.log
#SBATCH --ntasks=1
#SBATCH --time=500:00
#SBATCH --mem-per-cpu=16000
time ./inversion ../input/paper2/concrete2/common.txt ../input/paper2/concrete2/inversion.txt ../input/paper2/concrete2/parametrization_s.txt ../input/paper2/concrete2/innerproduct_ssm_s.txt ../input/paper2/concrete2/inversion_lbfgs.txt -data paper2_extended_concrete2_synthetics_s_data -m0_pathc0 ../input/paper2/concrete2/hard_slowness_initial -name inversion_ssm_lbfgs -verbose 2 -maxThreads 1
#!/bin/bash
#
#SBATCH --job-name=paper2_extended_inversion_sst_lbfgs_snr5
#SBATCH --output=paper2_extended_inversion_sst_lbfgs_snr5.log
#SBATCH --ntasks=1
#SBATCH --time=300:00
#SBATCH --mem-per-cpu=16000
time ./inversion ../input/paper2/extended/common.txt ../input/paper2/extended/inversion.txt ../input/paper2/extended/innerproduct_sst.txt ../input/paper2/extended/localminimum_lbfgs.txt ../input/paper2/extended/data_snr5.txt -verbose 2 -maxThreads 1 -name sst_lbfgs_snr5
#Local minimum search
localminimumsearch = classic
localminimum_writeInterval = 1
localminimum_maxIteration = 100
#
#Descent search
descentsearch = lbfgs
descent_memory = 10
#
#Line search
linesearch = strongwolfe
rho = 0.5
c1 = 0.0001
c2 = 0.9
a0 = 1.
#!/bin/bash
#
#SBATCH --job-name=paper3_synthetics
#SBATCH --output=paper3_synthetics.log
#SBATCH --ntasks=1
#SBATCH --time=30:00
#SBATCH --mem-per-cpu=48000
time ./synthetics ../input/paper3/common.txt ../input/paper3/synthetics.txt -verbose 2 -maxThreads 1
prename = paper3_
#Configuration
configuration = soil
#
xoffset = 0
Ler = 8.712
nr = 122
ne = 122
ReceiverOnEmitter=1
ymax = 0.216
ymin = 0.072
L = 9.192
H = 2.904
#
Re(v_air) = 1.5
Im(v_air) = 0.
Re(v_soil) = 2.
Im(v_soil) = 0.
#
#Equation
physic = acoustic
equation = helmholtz
#
#Discretization
h = 0.036
#Wave
wave_IntegrationType = Gauss
wave_FunctionSpaceType = HierarchicalH1
#
#Frequencies
n_freq = 3
#Frequency0
frequency0 = 4.
#Frequency1
frequency1 = 6.
#Frequency2
frequency2 = 8.
#!/bin/bash
#
#SBATCH --job-name=paper3_inversion_nscgA
#SBATCH --output=paper3_inversion_nscgA.log
#SBATCH --ntasks=1
#SBATCH --time=2400:00
#SBATCH --mem-per-cpu=48000
time ./inversion ../input/paper3/common.txt ../input/paper3/convergence/inversion.txt ../input/paper3/convergence/inversion_nscgA.txt -verbose 2 -maxThreads 1
#!/bin/bash
#
#SBATCH --job-name=paper3_inversion_nscgB
#SBATCH --output=paper3_inversion_nscgB.log
#SBATCH --ntasks=1
#SBATCH --time=2400:00
#SBATCH --mem-per-cpu=48000
time ./inversion ../input/paper3/common.txt ../input/paper3/convergence/inversion.txt ../input/paper3/convergence/inversion_nscgB.txt -verbose 2 -maxThreads 1
#!/bin/bash
#
#SBATCH --job-name=paper3_inversion_nscgC
#SBATCH --output=paper3_inversion_nscgC.log
#SBATCH --ntasks=1
#SBATCH --time=2400:00
#SBATCH --mem-per-cpu=48000
time ./inversion ../input/paper3/common.txt ../input/paper3/convergence/inversion.txt ../input/paper3/convergence/inversion_nscgC.txt -verbose 2 -maxThreads 1
#Configuration
unknown = soil
m0_type = velocity_file
m0_scale = 2.0
path = ../input/ZP2018Marmousi2D/marmousi
#
#Equation
gaussNewton=0
#
#Global minimum search
globalminimum_n_scale=1
#
scale00 = 0.8
#
scale10 = 0.5
#
scale20 = 0.4
#
n_group=3
#Data
data0 = paper3_synthetics_data0
data1 = paper3_synthetics_data1
data2 = paper3_synthetics_data2
#
#Discretization
#Wave
wave_FunctionSpaceDegree0 = 2
wave_FunctionSpaceDegree1 = 3
wave_FunctionSpaceDegree2 = 4
#Model
model_IntegrationType = Gauss
model_FunctionSpaceType = HierarchicalH1
model_FunctionSpaceDegree0 = 1
model_FunctionSpaceDegree1 = 1
model_FunctionSpaceDegree2 = 1
#
#Global minimum search
globalminimumsearch = sequentialscale
globalminimum_relDecreaseThreshold = 0.0
#Local minimum search
localminimum_absDecreaseThreshold = 1.5e-4
#
objective = continuousl2distance
objective_weight0 = ../input/paper3/paper3_reference_data0
objective_weight1 = ../input/paper3/paper3_reference_data1
objective_weight2 = ../input/paper3/paper3_reference_data2
#
#Inner product
complex = 0
boundaryWeight = 0.
innerproduct = sobolev
diag_preconditioner = 1
ref_preconditioner = 250
name = inversion_nscgA
#
#Local minimum search
localminimumsearch = yuanfan
localminimum_initMu = 1
localminimum_c0 = 0.0001
localminimum_c1 = 0.25
localminimum_c2 = 0.25
localminimum_c3 = 0.2
localminimum_c4 = 5.
localminimum_writeInterval = 5
localminimum_maxIteration = 50
#
#Descent search
descentsearch = newton_steihaug_conjugategradient
descent_maxIteration = 50
descent_eta0 = 0.4
name = inversion_nscgB
#
#Local minimum search
localminimumsearch = yuanfan
localminimum_initMu = 1
localminimum_c0 = 0.0001
localminimum_c1 = 0.75
localminimum_c2 = 0.75
localminimum_c3 = 0.25
localminimum_c4 = 2.
localminimum_writeInterval = 5
localminimum_maxIteration = 50
#
#Descent search
descentsearch = newton_steihaug_conjugategradient
descent_maxIteration = 50
descent_eta0 = 0.4
name = inversion_nscgC
#
#Local minimum search
localminimumsearch = yuanfan
localminimum_initMu = 1
localminimum_c0 = 0.0001
localminimum_c1 = 0.9
localminimum_c2 = 0.9
localminimum_c3 = 0.5
localminimum_c4 = 2.
localminimum_writeInterval = 5
localminimum_maxIteration = 50
#
#Descent search
descentsearch = newton_steihaug_conjugategradient
descent_maxIteration = 50
descent_eta0 = 0.4
prename = paper3_example4_
#Configuration
configuration = soil
#
xoffset = 0
Ler = 9.961089494163424
nr = 257
ne = 3
ReceiverOnEmitter=1
ymax = 3.
L = 12.
H = 1.
#
Re(v_soil) = 0.
Im(v_soil) = 0.
#
#
#
#Equation
physic = acoustic
equation = helmholtz
#
#Discretization
h = 0.04
#Wave
wave_IntegrationType = Gauss
wave_FunctionSpaceType = HierarchicalH1
#Model
model_IntegrationType = Gauss
model_FunctionSpaceDegree = 1
#
n_freq = 1
#Frequency0
frequency0 = 1.
wave_FunctionSpaceDegree0 = 2
name = multiscale
#Configuration
unknown = all
m0_type = velocity_depth_noair
Re(v_0) = 0.
Im(v_0) = 0.
Re(v_H) = 0.
Im(v_H) = 0.
#Sweeping
sweep_type = slowness
sweep_s0 = 1.0
sweep_sN = 1.4
sweep_N1 = 74
#
#Objective
objective = sobolev
data_scaled = 1
data_norm = 771
objective_la = 0.
objective_ls = 6.28
#
#Data
data0 = paper3_example4_synthetics_data0
#
#Discretization
#Output
write_data=1
write_fields=0
name = synthetics
#Configuration
unknown = none
m0_type = velocity_depth_noair
Re(v_0) = 1.0
Im(v_0) = 0.
Re(v_H) = 1.0
Im(v_H) = 0.
#
#Output
write_data_fields = 0
write_wave_fields = 1
name = ip_comparison
#Configuration
unknown = soil
m0_type = velocity_depth
Re(v_0) = 1.5
Im(v_0) = 0.
Re(v_H) = 3.5
Im(v_H) = 0.
#
#Equation
gaussNewton=0
#Objective
objective = continuousl2distance
objective_weight0 = ../input/paper3/paper3_reference_data0
#
#Inner product
complex = 0
boundaryWeight = 0.
diag_preconditioner = 1
innerproduct = sobolev
ref_preconditioner = 250
#
scale0 = 0.8
#
#Data
data0 = paper3_synthetics_data0
#
#Discretization
#Wave
wave_FunctionSpaceDegree0 = 2
#Model
model_IntegrationType = Gauss
model_FunctionSpaceType = HierarchicalH1
model_FunctionSpaceDegree = 1
Source diff could not be displayed: it is too large. Options to address this: view the blob.
name = ob_comparison
#Configuration
unknown = soil
m0_type = velocity_depth
Re(v_0) = 1.5
Im(v_0) = 0.
Re(v_H) = 3.5
Im(v_H) = 0.
#
#Equation
gaussNewton=0
#Objective
objective = continuousl2distance
objective_weight0 = ../input/paper3/paper3_reference_data0
#
interval = linear
scale0 = 0.4
scaleN = 2.
N=4
#
#Data
data0 = paper3_synthetics_data0
#
#Discretization
#Wave
wave_FunctionSpaceDegree0 = 2
#Model
model_IntegrationType = Gauss
model_FunctionSpaceType = HierarchicalH1
model_FunctionSpaceDegree = 1
Source diff could not be displayed: it is too large. Options to address this: view the blob.
Source diff could not be displayed: it is too large. Options to address this: view the blob.
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