/[escript]/trunk/doc/examples/inversion/mag_netcdf.py
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Revision 4287 - (hide annotations)
Thu Mar 7 05:26:44 2013 UTC (6 years, 6 months ago) by caltinay
File MIME type: text/x-python
File size: 2474 byte(s)
Removed simpleGeoMagnetic field function from doco and example source.

1 caltinay 4157
2     ##############################################################################
3     #
4     # Copyright (c) 2009-2013 by University of Queensland
5     # http://www.uq.edu.au
6     #
7     # Primary Business: Queensland, Australia
8     # Licensed under the Open Software License version 3.0
9     # http://www.opensource.org/licenses/osl-3.0.php
10     #
11     # Development until 2012 by Earth Systems Science Computational Center (ESSCC)
12     # Development since 2012 by School of Earth Sciences
13     #
14     ##############################################################################
15    
16     """3D magnetic inversion example using netCDF data"""
17    
18     __copyright__="""Copyright (c) 2009-2013 by University of Queensland
19     http://www.uq.edu.au
20     Primary Business: Queensland, Australia"""
21     __license__="""Licensed under the Open Software License version 3.0
22     http://www.opensource.org/licenses/osl-3.0.php"""
23     __url__="https://launchpad.net/escript-finley"
24    
25     # Import required modules
26     from esys.downunder import *
27 caltinay 4267 from esys.weipa import *
28 caltinay 4157 from esys.escript import unitsSI as U
29 caltinay 4267 from esys.escript import saveDataCSV
30 caltinay 4157
31     # Set parameters
32 caltinay 4267 DATASET = 'data/MagneticSmall.nc'
33     DATA_UNITS = U.Nano * U.V * U.sec / (U.m**2)
34 caltinay 4157 PAD_X = 0.2
35     PAD_Y = 0.2
36     thickness = 40. * U.km
37     l_air = 6. * U.km
38     n_cells_v = 25
39 caltinay 4267 MU = 0.1
40 caltinay 4287 # background magnetic field components (B_North, B_East, B_Vertical)
41     B_b = [31232.*U.Nano*U.Tesla, 2201.*U.Nano*U.Tesla, -41405.*U.Nano*U.Tesla]
42 caltinay 4157
43     # Setup and run the inversion
44 caltinay 4267 source=NetCdfData(NetCdfData.MAGNETIC, DATASET, scale_factor=DATA_UNITS)
45 caltinay 4157 db=DomainBuilder(dim=3)
46     db.addSource(source)
47     db.setVerticalExtents(depth=thickness, air_layer=l_air, num_cells=n_cells_v)
48     db.setFractionalPadding(pad_x=PAD_X, pad_y=PAD_Y)
49     db.setBackgroundMagneticFluxDensity(B_b)
50 caltinay 4175 db.fixSusceptibilityBelow(depth=thickness)
51 caltinay 4157
52     inv=MagneticInversion()
53     inv.setSolverTolerance(1e-4)
54     inv.setSolverMaxIterations(50)
55     inv.setup(db)
56 caltinay 4267 inv.getCostFunction().setTradeOffFactorsModels(MU)
57 caltinay 4157
58 caltinay 4267 susceptibility = inv.run()
59 caltinay 4157 print("susceptibility = %s"%susceptibility)
60    
61 caltinay 4267 B, w = db.getMagneticSurveys()[0]
62     saveSilo("result_magnetic.silo", susceptibility=susceptibility, magnetic_anomaly=B, magnetic_weight=w)
63     print("Results saved in result_magnetic.silo")
64 caltinay 4157
65 caltinay 4267 saveVTK("result_magnetic.vtu", susceptibility=susceptibility, magnetic_anomaly=B, magnetic_weight=w)
66     print("Results saved in result_magnetic.vtu")
67    
68     saveDataCSV("result_magnetic.csv", susceptibility=susceptibility, x=susceptibility.getFunctionSpace().getX())
69     print("Results saved in result_magnetic.csv")
70    
71     print("All done. Have a nice day!")
72    

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