Residual norms for cs_ solve. 0 KSP none resid norm 1.254940857906e+01 true resid norm 1.158447123888e-14 ||r(i)||/||b|| 9.231089390304e-16 1 KSP none resid norm 1.158447123888e-14 true resid norm 1.158447123888e-14 ||r(i)||/||b|| 9.231089390304e-16 Linear cs_ solve converged due to CONVERGED_ITS iterations 1 KSP Object: (cs_) 108 MPI processes type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000. left preconditioning using NONE norm type for convergence test PC Object: (cs_) 108 MPI processes type: lu out-of-place factorization tolerance for zero pivot 2.22045e-14 matrix ordering: external factor fill ratio given 0., needed 0. Factored matrix follows: Mat Object: 108 MPI processes type: mumps rows=5351238, cols=5351238 package used to perform factorization: mumps total: nonzeros=-11493, allocated nonzeros=-11493 MUMPS run parameters: SYM (matrix type): 0 PAR (host participation): 1 ICNTL(1) (output for error): 6 ICNTL(2) (output of diagnostic msg): 0 ICNTL(3) (output for global info): 0 ICNTL(4) (level of printing): 0 ICNTL(5) (input mat struct): 0 ICNTL(6) (matrix prescaling): 7 ICNTL(7) (sequential matrix ordering):7 ICNTL(8) (scaling strategy): 77 ICNTL(10) (max num of refinements): 0 ICNTL(11) (error analysis): 0 ICNTL(12) (efficiency control): 1 ICNTL(13) (sequential factorization of the root node): 0 ICNTL(14) (percentage of estimated workspace increase): 35 ICNTL(18) (input mat struct): 3 ICNTL(19) (Schur complement info): 0 ICNTL(20) (RHS sparse pattern): 10 ICNTL(21) (solution struct): 1 ICNTL(22) (in-core/out-of-core facility): 0 ICNTL(23) (max size of memory can be allocated locally):0 ICNTL(24) (detection of null pivot rows): 0 ICNTL(25) (computation of a null space basis): 0 ICNTL(26) (Schur options for RHS or solution): 0 ICNTL(27) (blocking size for multiple RHS): -32 ICNTL(28) (use parallel or sequential ordering): 1 ICNTL(29) (parallel ordering): 0 ICNTL(30) (user-specified set of entries in inv(A)): 0 ICNTL(31) (factors is discarded in the solve phase): 0 ICNTL(33) (compute determinant): 0 ICNTL(35) (activate BLR based factorization): 0 ICNTL(36) (choice of BLR factorization variant): 0 ICNTL(38) (estimated compression rate of LU factors): 333 CNTL(1) (relative pivoting threshold): 0.01 CNTL(2) (stopping criterion of refinement): 1.49012e-08 CNTL(3) (absolute pivoting threshold): 0. CNTL(4) (value of static pivoting): -1. CNTL(5) (fixation for null pivots): 0. CNTL(7) (dropping parameter for BLR): 0. RINFO(1) (local estimated flops for the elimination after analysis): [0] 1.66073e+12 [1] 1.6585e+12 [2] 1.63203e+12 [3] 1.66098e+12 [4] 1.66093e+12 [5] 1.67157e+12 [6] 1.63749e+12 [7] 1.66218e+12 [8] 1.66996e+12 [9] 1.6724e+12 [10] 1.66066e+12 [11] 1.66488e+12 [12] 1.66376e+12 [13] 1.67345e+12 [14] 1.66895e+12 [15] 1.65963e+12 [16] 1.80688e+12 [17] 1.81292e+12 [18] 1.84546e+12 [19] 1.84133e+12 [20] 1.81582e+12 [21] 1.81373e+12 [22] 1.82058e+12 [23] 1.81928e+12 [24] 1.78549e+12 [25] 1.81829e+12 [26] 1.81991e+12 [27] 1.81214e+12 [28] 1.80272e+12 [29] 1.83771e+12 [30] 1.78353e+12 [31] 1.81475e+12 [32] 1.9671e+12 [33] 2.01986e+12 [34] 1.71875e+12 [35] 1.66608e+12 [36] 1.68529e+12 [37] 1.6605e+12 [38] 1.64795e+12 [39] 1.65916e+12 [40] 1.66158e+12 [41] 1.66343e+12 [42] 1.66994e+12 [43] 1.65919e+12 [44] 1.72425e+12 [45] 1.88805e+12 [46] 1.75515e+12 [47] 1.7273e+12 [48] 1.71609e+12 [49] 1.73189e+12 [50] 1.73073e+12 [51] 1.7049e+12 [52] 1.72524e+12 [53] 1.73553e+12 [54] 1.74309e+12 [55] 1.66744e+12 [56] 1.71165e+12 [57] 1.70487e+12 [58] 1.72586e+12 [59] 1.72037e+12 [60] 1.75284e+12 [61] 1.74677e+12 [62] 1.71936e+12 [63] 1.72901e+12 [64] 1.69258e+12 [65] 1.52824e+12 [66] 1.69267e+12 [67] 1.72771e+12 [68] 1.72308e+12 [69] 1.73153e+12 [70] 1.70773e+12 [71] 1.71084e+12 [72] 1.7297e+12 [73] 1.73028e+12 [74] 1.74747e+12 [75] 1.77166e+12 [76] 1.70912e+12 [77] 1.74161e+12 [78] 1.7246e+12 [79] 1.7157e+12 [80] 1.70691e+12 [81] 1.74236e+12 [82] 1.72341e+12 [83] 1.72029e+12 [84] 1.73416e+12 [85] 1.71799e+12 [86] 1.74188e+12 [87] 1.74702e+12 [88] 1.74342e+12 [89] 1.74041e+12 [90] 1.72573e+12 [91] 1.86275e+12 [92] 1.86433e+12 [93] 1.85934e+12 [94] 1.85806e+12 [95] 1.83803e+12 [96] 1.86591e+12 [97] 1.8614e+12 [98] 1.81489e+12 [99] 1.86052e+12 [100] 1.85587e+12 [101] 2.21322e+12 [102] 1.89808e+12 [103] 1.86218e+12 [104] 1.85395e+12 [105] 1.73799e+12 [106] 1.65875e+12 [107] 1.68549e+12 RINFO(2) (local estimated flops for the assembly after factorization): [0] 1.23324e+09 [1] 1.26652e+09 [2] 1.29086e+09 [3] 1.28862e+09 [4] 1.29277e+09 [5] 1.13907e+09 [6] 1.24423e+09 [7] 1.22431e+09 [8] 1.23427e+09 [9] 1.21851e+09 [10] 1.3006e+09 [11] 1.22163e+09 [12] 1.3956e+09 [13] 1.3435e+09 [14] 1.13975e+09 [15] 1.2994e+09 [16] 1.17168e+09 [17] 1.36141e+09 [18] 1.27683e+09 [19] 1.36749e+09 [20] 1.35887e+09 [21] 1.17786e+09 [22] 1.31688e+09 [23] 1.23037e+09 [24] 1.38063e+09 [25] 1.28078e+09 [26] 1.34857e+09 [27] 1.3585e+09 [28] 1.30495e+09 [29] 1.33338e+09 [30] 1.27015e+09 [31] 1.27686e+09 [32] 1.22159e+09 [33] 1.07075e+09 [34] 1.07552e+09 [35] 1.19348e+09 [36] 1.16066e+09 [37] 1.25166e+09 [38] 1.21874e+09 [39] 1.31041e+09 [40] 1.35048e+09 [41] 1.16192e+09 [42] 1.16826e+09 [43] 1.3497e+09 [44] 1.21962e+09 [45] 8.19742e+08 [46] 1.22407e+09 [47] 1.32461e+09 [48] 1.28711e+09 [49] 1.35711e+09 [50] 1.21803e+09 [51] 1.28077e+09 [52] 1.2183e+09 [53] 1.41845e+09 [54] 1.27162e+09 [55] 1.30681e+09 [56] 1.22733e+09 [57] 1.11684e+09 [58] 1.24733e+09 [59] 1.20164e+09 [60] 1.22904e+09 [61] 1.17636e+09 [62] 1.23171e+09 [63] 1.22975e+09 [64] 1.29833e+09 [65] 1.36646e+09 [66] 1.19033e+09 [67] 1.28285e+09 [68] 1.30905e+09 [69] 1.2874e+09 [70] 1.20752e+09 [71] 1.32472e+09 [72] 1.20872e+09 [73] 1.23065e+09 [74] 1.31336e+09 [75] 1.38972e+09 [76] 1.1689e+09 [77] 1.3065e+09 [78] 1.30035e+09 [79] 1.31215e+09 [80] 1.32861e+09 [81] 1.2647e+09 [82] 1.4236e+09 [83] 1.32676e+09 [84] 1.24456e+09 [85] 1.36916e+09 [86] 1.30353e+09 [87] 1.42703e+09 [88] 1.25465e+09 [89] 1.2578e+09 [90] 1.33372e+09 [91] 1.38357e+09 [92] 1.46306e+09 [93] 1.42037e+09 [94] 1.38921e+09 [95] 1.4006e+09 [96] 1.40985e+09 [97] 1.41777e+09 [98] 1.18292e+09 [99] 1.22771e+09 [100] 1.2416e+09 [101] 1.02753e+09 [102] 1.13616e+09 [103] 1.19053e+09 [104] 1.23898e+09 [105] 1.25436e+09 [106] 1.19131e+09 [107] 1.21628e+09 RINFO(3) (local estimated flops for the elimination after factorization): [0] 1.60244e+12 [1] 1.74294e+12 [2] 1.69196e+12 [3] 1.695e+12 [4] 1.80765e+12 [5] 1.56607e+12 [6] 1.76597e+12 [7] 1.74922e+12 [8] 1.58864e+12 [9] 1.66604e+12 [10] 1.76361e+12 [11] 1.68972e+12 [12] 1.92682e+12 [13] 1.70654e+12 [14] 1.62132e+12 [15] 1.77676e+12 [16] 1.63572e+12 [17] 1.89394e+12 [18] 1.75041e+12 [19] 1.90894e+12 [20] 1.83295e+12 [21] 1.60131e+12 [22] 1.72745e+12 [23] 1.7096e+12 [24] 1.78206e+12 [25] 1.81382e+12 [26] 1.77662e+12 [27] 1.89438e+12 [28] 1.81961e+12 [29] 1.87533e+12 [30] 1.6349e+12 [31] 1.75706e+12 [32] 1.75646e+12 [33] 1.76596e+12 [34] 1.70886e+12 [35] 1.65914e+12 [36] 1.71771e+12 [37] 1.63745e+12 [38] 1.64457e+12 [39] 1.7803e+12 [40] 1.77006e+12 [41] 1.61189e+12 [42] 1.66595e+12 [43] 1.84219e+12 [44] 1.62509e+12 [45] 1.26457e+12 [46] 1.66727e+12 [47] 1.74436e+12 [48] 1.67484e+12 [49] 1.82673e+12 [50] 1.63331e+12 [51] 1.63468e+12 [52] 1.73827e+12 [53] 1.85881e+12 [54] 1.76778e+12 [55] 1.80892e+12 [56] 1.67656e+12 [57] 1.59896e+12 [58] 1.70286e+12 [59] 1.66236e+12 [60] 1.70077e+12 [61] 1.64734e+12 [62] 1.74903e+12 [63] 1.72385e+12 [64] 1.78797e+12 [65] 1.83683e+12 [66] 1.68984e+12 [67] 1.92741e+12 [68] 1.78981e+12 [69] 1.73937e+12 [70] 1.64734e+12 [71] 1.81129e+12 [72] 1.76783e+12 [73] 1.75595e+12 [74] 1.81577e+12 [75] 1.87818e+12 [76] 1.6395e+12 [77] 1.78884e+12 [78] 1.74558e+12 [79] 1.79986e+12 [80] 1.77469e+12 [81] 1.80164e+12 [82] 1.91219e+12 [83] 1.79518e+12 [84] 1.65173e+12 [85] 1.84183e+12 [86] 1.70264e+12 [87] 1.92076e+12 [88] 1.72546e+12 [89] 1.76506e+12 [90] 1.77798e+12 [91] 1.80609e+12 [92] 1.98728e+12 [93] 1.88273e+12 [94] 1.84458e+12 [95] 1.8155e+12 [96] 1.86762e+12 [97] 1.8405e+12 [98] 1.69509e+12 [99] 1.70999e+12 [100] 1.81556e+12 [101] 1.63428e+12 [102] 1.70419e+12 [103] 1.7708e+12 [104] 1.80242e+12 [105] 1.81926e+12 [106] 1.7836e+12 [107] 1.80131e+12 INFO(15) (estimated size of (in MB) MUMPS internal data for running numerical factorization): [0] 2300 [1] 1916 [2] 2013 [3] 2104 [4] 1855 [5] 2194 [6] 1920 [7] 2262 [8] 2078 [9] 1980 [10] 1843 [11] 2071 [12] 1933 [13] 2043 [14] 2564 [15] 1877 [16] 2369 [17] 2143 [18] 2200 [19] 2065 [20] 2058 [21] 2405 [22] 1915 [23] 2176 [24] 2075 [25] 2101 [26] 1920 [27] 1816 [28] 2079 [29] 1800 [30] 2212 [31] 2085 [32] 1901 [33] 2173 [34] 1904 [35] 1992 [36] 1955 [37] 2375 [38] 2147 [39] 1864 [40] 1784 [41] 1973 [42] 2236 [43] 1938 [44] 1889 [45] 2638 [46] 2163 [47] 2094 [48] 2086 [49] 1888 [50] 2170 [51] 2179 [52] 2055 [53] 1967 [54] 1995 [55] 1946 [56] 2166 [57] 2296 [58] 1958 [59] 1921 [60] 2118 [61] 2227 [62] 2273 [63] 2296 [64] 2093 [65] 2181 [66] 2025 [67] 1844 [68] 1919 [69] 2018 [70] 2169 [71] 2135 [72] 1854 [73] 2091 [74] 2056 [75] 2199 [76] 2139 [77] 2158 [78] 2157 [79] 2219 [80] 2284 [81] 1779 [82] 1890 [83] 1958 [84] 2150 [85] 2043 [86] 2325 [87] 1912 [88] 2000 [89] 1906 [90] 2056 [91] 1812 [92] 1914 [93] 2078 [94] 1914 [95] 2190 [96] 2211 [97] 2022 [98] 3255 [99] 3384 [100] 3480 [101] 4184 [102] 3364 [103] 3486 [104] 3348 [105] 3573 [106] 3379 [107] 3444 INFO(16) (size of (in MB) MUMPS internal data used during numerical factorization): [0] 2300 [1] 1916 [2] 2013 [3] 2104 [4] 1855 [5] 2194 [6] 1920 [7] 2262 [8] 2078 [9] 1980 [10] 1843 [11] 2071 [12] 1933 [13] 2043 [14] 2564 [15] 1877 [16] 2369 [17] 2143 [18] 2200 [19] 2065 [20] 2058 [21] 2405 [22] 1915 [23] 2176 [24] 2075 [25] 2101 [26] 1920 [27] 1816 [28] 2079 [29] 1800 [30] 2212 [31] 2085 [32] 1901 [33] 2173 [34] 1904 [35] 1992 [36] 1955 [37] 2375 [38] 2147 [39] 1864 [40] 1784 [41] 1973 [42] 2236 [43] 1938 [44] 1889 [45] 2638 [46] 2163 [47] 2094 [48] 2086 [49] 1888 [50] 2170 [51] 2179 [52] 2055 [53] 1967 [54] 1995 [55] 1946 [56] 2166 [57] 2296 [58] 1958 [59] 1921 [60] 2118 [61] 2227 [62] 2273 [63] 2296 [64] 2093 [65] 2181 [66] 2025 [67] 1844 [68] 1919 [69] 2018 [70] 2169 [71] 2135 [72] 1854 [73] 2091 [74] 2056 [75] 2199 [76] 2139 [77] 2158 [78] 2157 [79] 2219 [80] 2284 [81] 1779 [82] 1890 [83] 1958 [84] 2150 [85] 2043 [86] 2325 [87] 1912 [88] 2000 [89] 1906 [90] 2056 [91] 1812 [92] 1914 [93] 2078 [94] 1914 [95] 2190 [96] 2211 [97] 2022 [98] 3255 [99] 3384 [100] 3480 [101] 4184 [102] 3364 [103] 3486 [104] 3348 [105] 3573 [106] 3379 [107] 3444 INFO(23) (num of pivots eliminated on this processor after factorization): [0] 177460 [1] 35826 [2] 36168 [3] 21562 [4] 29864 [5] 30190 [6] 32434 [7] 32186 [8] 32828 [9] 57560 [10] 32870 [11] 38961 [12] 60784 [13] 52132 [14] 23454 [15] 41060 [16] 26563 [17] 54658 [18] 36806 [19] 30702 [20] 28316 [21] 34792 [22] 15746 [23] 16978 [24] 21104 [25] 23388 [26] 20728 [27] 21698 [28] 40120 [29] 26260 [30] 58238 [31] 21424 [32] 25210 [33] 2728 [34] 1784 [35] 18258 [36] 17222 [37] 25140 [38] 28888 [39] 29554 [40] 34856 [41] 17960 [42] 24771 [43] 72424 [44] 33690 [45] 39812 [46] 23474 [47] 41682 [48] 27212 [49] 29338 [50] 59726 [51] 39712 [52] 78260 [53] 57154 [54] 31556 [55] 2332 [56] 2427 [57] 3001 [58] 20384 [59] 23604 [60] 26968 [61] 23986 [62] 60086 [63] 51186 [64] 40922 [65] 32312 [66] 2220 [67] 11216 [68] 14900 [69] 16532 [70] 15728 [71] 20326 [72] 18738 [73] 22016 [74] 40980 [75] 38930 [76] 28656 [77] 29244 [78] 41942 [79] 21374 [80] 31886 [81] 24676 [82] 36636 [83] 30114 [84] 22164 [85] 31014 [86] 41380 [87] 25650 [88] 3469 [89] 2216 [90] 16120 [91] 14990 [92] 17696 [93] 26000 [94] 22886 [95] 41160 [96] 22980 [97] 29318 [98] 196482 [99] 197634 [100] 286590 [101] 279818 [102] 203248 [103] 232626 [104] 245590 [105] 217912 [106] 252344 [107] 215358 RINFOG(1) (global estimated flops for the elimination after analysis): 1.88847e+14 RINFOG(2) (global estimated flops for the assembly after factorization): 1.3691e+11 RINFOG(3) (global estimated flops for the elimination after factorization): 1.88713e+14 (RINFOG(12) RINFOG(13))*2^INFOG(34) (determinant): (0.,0.)*(2^0) INFOG(3) (estimated real workspace for factors on all processors after analysis): -11765 INFOG(4) (estimated integer workspace for factors on all processors after analysis): 114029512 INFOG(5) (estimated maximum front size in the complete tree): 40552 INFOG(6) (number of nodes in the complete tree): 1135950 INFOG(7) (ordering option effectively used after analysis): 5 INFOG(8) (structural symmetry in percent of the permuted matrix after analysis): -1 INFOG(9) (total real/complex workspace to store the matrix factors after factorization): -11491 INFOG(10) (total integer space store the matrix factors after factorization): 112027552 INFOG(11) (order of largest frontal matrix after factorization): 40546 INFOG(12) (number of off-diagonal pivots): 648 INFOG(13) (number of delayed pivots after factorization): 22 INFOG(14) (number of memory compress after factorization): 855 INFOG(15) (number of steps of iterative refinement after solution): 0 INFOG(16) (estimated size (in MB) of all MUMPS internal data for factorization after analysis: value on the most memory consuming processor): 4184 INFOG(17) (estimated size of all MUMPS internal data for factorization after analysis: sum over all processors): 237537 INFOG(18) (size of all MUMPS internal data allocated during factorization: value on the most memory consuming processor): 4184 INFOG(19) (size of all MUMPS internal data allocated during factorization: sum over all processors): 237537 INFOG(20) (estimated number of entries in the factors): -11493 INFOG(21) (size in MB of memory effectively used during factorization - value on the most memory consuming processor): 3087 INFOG(22) (size in MB of memory effectively used during factorization - sum over all processors): 188082 INFOG(23) (after analysis: value of ICNTL(6) effectively used): 0 INFOG(24) (after analysis: value of ICNTL(12) effectively used): 1 INFOG(25) (after factorization: number of pivots modified by static pivoting): 0 INFOG(28) (after factorization: number of null pivots encountered): 0 INFOG(29) (after factorization: effective number of entries in the factors (sum over all processors)): -11491 INFOG(30, 31) (after solution: size in Mbytes of memory used during solution phase): 4030, 222811 INFOG(32) (after analysis: type of analysis done): 1 INFOG(33) (value used for ICNTL(8)): 7 INFOG(34) (exponent of the determinant if determinant is requested): 0 INFOG(35) (after factorization: number of entries taking into account BLR factor compression - sum over all processors): -11491 INFOG(36) (after analysis: estimated size of all MUMPS internal data for running BLR in-core - value on the most memory consuming processor): 0 INFOG(37) (after analysis: estimated size of all MUMPS internal data for running BLR in-core - sum over all processors): 0 INFOG(38) (after analysis: estimated size of all MUMPS internal data for running BLR out-of-core - value on the most memory consuming processor): 0 INFOG(39) (after analysis: estimated size of all MUMPS internal data for running BLR out-of-core - sum over all processors): 0 linear system matrix = precond matrix: Mat Object: (cs_) 108 MPI processes type: mpiaij rows=5351238, cols=5351238 total: nonzeros=74533580, allocated nonzeros=149067160 total number of mallocs used during MatSetValues calls=0 not using I-node (on process 0) routines