Reading the parameter file ... Title of the simulation Test for M2 UPPA 1 1 2700.d0 3000.d0 1732.051d0 0 0 9999 9999 0 0 0 0 0 0 2 1 2500.d0 2700.d0 0 0 0 9999 9999 0 0 0 0 0 0 3 1 2200.d0 2500.d0 1443.375d0 0 0 9999 9999 0 0 0 0 0 0 4 1 2200.d0 2200.d0 1343.375d0 0 0 9999 9999 0 0 0 0 0 0 Nb of solid, fluid or porous materials = 4 Material # 1 isotropic rho,cp,cs = 2700.00000000000 3000.00000000000 1732.05100000000 9999.00000000000 9999.00000000000 Material is solid Material # 2 isotropic rho,cp,cs = 2500.00000000000 2700.00000000000 0.000000000000000E+000 9999.00000000000 9999.00000000000 Material is fluid Material # 3 isotropic rho,cp,cs = 2200.00000000000 2500.00000000000 1443.37500000000 9999.00000000000 9999.00000000000 Material is solid Material # 4 isotropic rho,cp,cs = 2200.00000000000 2200.00000000000 1343.37500000000 9999.00000000000 9999.00000000000 Material is solid Reading interface data from file DATA/../interfaces_M2_UPPA_curved.dat to count the spectral elements Reading 2 points for interface 1 Reading 7 points for interface 2 Reading 9 points for interface 3 Reading 8 points for interface 4 Total number of layers in z direction = 3 There are 20 spectral elements along Z in layer 1 There are 20 spectral elements along Z in layer 2 There are 20 spectral elements along Z in layer 3 Total number of spectral elements along Z = 60 Nb of regions in the mesh = 4 Region 1 IX from 1 to 80 IZ from 1 to 20 Material # 1 isotropic Material is solid vp = 3000.00000000000 vs = 1732.05100000000 rho = 2700.00000000000 Poisson's ratio = 0.249999916674866 QKappa = 9999.00000000000 Qmu = 9999.00000000000 ----- Region 2 IX from 1 to 80 IZ from 21 to 40 Material # 2 isotropic Material is fluid vp = 2700.00000000000 vs = 0.000000000000000E+000 rho = 2500.00000000000 Poisson's ratio = 0.500000000000000 QKappa = 9999.00000000000 Qmu = 9999.00000000000 ----- Region 3 IX from 1 to 80 IZ from 41 to 60 Material # 3 isotropic Material is solid vp = 2500.00000000000 vs = 1443.37500000000 rho = 2200.00000000000 Poisson's ratio = 0.250000349687337 QKappa = 9999.00000000000 Qmu = 9999.00000000000 ----- Region 4 IX from 60 to 70 IZ from 21 to 40 Material # 4 isotropic Material is solid vp = 2200.00000000000 vs = 1343.37500000000 rho = 2200.00000000000 Poisson's ratio = 0.202726178174505 QKappa = 9999.00000000000 Qmu = 9999.00000000000 ----- Parameter file successfully read... Source 1 Position xs, zs = 2500.00000000000 2500.00000000000 Frequency, delay = 10.0000000000000 0.000000000000000E+000 Source type (1=force, 2=explosion): 1 Time function type (1=Ricker, 2=First derivative, 3=Gaussian, 4=Dirac, 5=Heavis ide): 1 Angle of the source if force = 0.000000000000000E+000 Mxx of the source if moment tensor = 1.00000000000000 Mzz of the source if moment tensor = 1.00000000000000 Mxz of the source if moment tensor = 0.000000000000000E+000 Multiplying factor = 10000000000.0000 The mesh contains 4800 elements Control elements have 9 nodes Reading interface data from file DATA/../interfaces_M2_UPPA_curved.dat Min and max value of X in the grid = 0.000000000000000E+000 4000.00000000000 Min and max value of Z in the grid = 0.000000000000000E+000 3355.83634055500 nedges_coupled (acoustic/elastic) 178 nedges_coupled (acoustic/poroelastic) 0 nedges_coupled (poroelastic/elastic) 0 Position (x,z) of the source = 2500.00000000000 2500.00000000000 writing the DATA/STATIONS file There are 11 receivers Target positions (x,z) of the 11 receivers Receiver 1 = 300.000000000000 2997.72989086732 Receiver 2 = 640.000000000000 3008.04300112579 Receiver 3 = 980.000000000000 3090.82240624928 Receiver 4 = 1320.00000000000 3283.03039228030 Receiver 5 = 1660.00000000000 3347.87688620333 Receiver 6 = 2000.00000000000 3250.00000000000 Receiver 7 = 2340.00000000000 3197.31380310167 Receiver 8 = 2680.00000000000 3150.96198727168 Receiver 9 = 3020.00000000000 3086.59390512924 Receiver 10 = 3360.00000000000 3042.85237481907 Receiver 11 = 3700.00000000000 3020.68867676623 This will be a serial simulation