[petsc-users] fieldsplit preconditioner for indefinite matrix
Hoang Giang Bui
hgbk2008 at gmail.com
Sun Apr 17 03:25:08 CDT 2016
> It could be taking time in the MatMatMult() here if that matrix is dense.
> Is there any reason to
> believe that is a good preconditioner for your problem?
>
This is the first approach to the problem, so I chose the most simple
setting. Do you have any other recommendation?
For any solver question, please send us the output of
>
> -ksp_view -ksp_monitor_true_residual -ksp_converged_reason
>
>
I sent here the full output (after changed to fgmres), again it takes long
at the first iteration but after that, it does not converge
-ksp_type fgmres
-ksp_max_it 300
-ksp_gmres_restart 300
-ksp_gmres_modifiedgramschmidt
-pc_fieldsplit_type schur
-pc_fieldsplit_schur_fact_type diag
-pc_fieldsplit_schur_precondition selfp
-pc_fieldsplit_detect_saddle_point
-fieldsplit_u_ksp_type preonly
-fieldsplit_u_pc_type lu
-fieldsplit_u_pc_factor_mat_solver_package mumps
-fieldsplit_lu_ksp_type preonly
-fieldsplit_lu_pc_type lu
-fieldsplit_lu_pc_factor_mat_solver_package mumps
0 KSP unpreconditioned resid norm 3.037772453815e+06 true resid norm
3.037772453815e+06 ||r(i)||/||b|| 1.000000000000e+00
1 KSP unpreconditioned resid norm 3.024368791893e+06 true resid norm
3.024368791296e+06 ||r(i)||/||b|| 9.955876673705e-01
2 KSP unpreconditioned resid norm 3.008534454663e+06 true resid norm
3.008534454904e+06 ||r(i)||/||b|| 9.903751846607e-01
3 KSP unpreconditioned resid norm 4.633282412600e+02 true resid norm
4.607539866185e+02 ||r(i)||/||b|| 1.516749505184e-04
4 KSP unpreconditioned resid norm 4.630592911836e+02 true resid norm
4.605625897903e+02 ||r(i)||/||b|| 1.516119448683e-04
5 KSP unpreconditioned resid norm 2.145735509629e+02 true resid norm
2.111697416683e+02 ||r(i)||/||b|| 6.951466736857e-05
6 KSP unpreconditioned resid norm 2.145734219762e+02 true resid norm
2.112001242378e+02 ||r(i)||/||b|| 6.952466896346e-05
7 KSP unpreconditioned resid norm 1.892914067411e+02 true resid norm
1.831020928502e+02 ||r(i)||/||b|| 6.027511791420e-05
8 KSP unpreconditioned resid norm 1.892906351597e+02 true resid norm
1.831422357767e+02 ||r(i)||/||b|| 6.028833250718e-05
9 KSP unpreconditioned resid norm 1.891426729822e+02 true resid norm
1.835600473014e+02 ||r(i)||/||b|| 6.042587128964e-05
10 KSP unpreconditioned resid norm 1.891425181679e+02 true resid norm
1.855772578041e+02 ||r(i)||/||b|| 6.108991395027e-05
11 KSP unpreconditioned resid norm 1.891417382057e+02 true resid norm
1.833302669042e+02 ||r(i)||/||b|| 6.035023020699e-05
12 KSP unpreconditioned resid norm 1.891414749001e+02 true resid norm
1.827923591605e+02 ||r(i)||/||b|| 6.017315712076e-05
13 KSP unpreconditioned resid norm 1.891414702834e+02 true resid norm
1.849895606391e+02 ||r(i)||/||b|| 6.089645075515e-05
14 KSP unpreconditioned resid norm 1.891414687385e+02 true resid norm
1.852700958573e+02 ||r(i)||/||b|| 6.098879974523e-05
15 KSP unpreconditioned resid norm 1.891399614701e+02 true resid norm
1.817034334576e+02 ||r(i)||/||b|| 5.981469521503e-05
16 KSP unpreconditioned resid norm 1.891393964580e+02 true resid norm
1.823173574739e+02 ||r(i)||/||b|| 6.001679199012e-05
17 KSP unpreconditioned resid norm 1.890868604964e+02 true resid norm
1.834754811775e+02 ||r(i)||/||b|| 6.039803308740e-05
18 KSP unpreconditioned resid norm 1.888442703508e+02 true resid norm
1.852079421560e+02 ||r(i)||/||b|| 6.096833945658e-05
19 KSP unpreconditioned resid norm 1.888131521870e+02 true resid norm
1.810111295757e+02 ||r(i)||/||b|| 5.958679668335e-05
20 KSP unpreconditioned resid norm 1.888038471618e+02 true resid norm
1.814080717355e+02 ||r(i)||/||b|| 5.971746550920e-05
21 KSP unpreconditioned resid norm 1.885794485272e+02 true resid norm
1.843223565278e+02 ||r(i)||/||b|| 6.067681478129e-05
22 KSP unpreconditioned resid norm 1.884898771362e+02 true resid norm
1.842766260526e+02 ||r(i)||/||b|| 6.066176083110e-05
23 KSP unpreconditioned resid norm 1.884840498049e+02 true resid norm
1.813011285152e+02 ||r(i)||/||b|| 5.968226102238e-05
24 KSP unpreconditioned resid norm 1.884105698955e+02 true resid norm
1.811513025118e+02 ||r(i)||/||b|| 5.963294001309e-05
25 KSP unpreconditioned resid norm 1.881392557375e+02 true resid norm
1.835706567649e+02 ||r(i)||/||b|| 6.042936380386e-05
26 KSP unpreconditioned resid norm 1.881234481250e+02 true resid norm
1.843633799886e+02 ||r(i)||/||b|| 6.069031923609e-05
27 KSP unpreconditioned resid norm 1.852572648925e+02 true resid norm
1.791532195358e+02 ||r(i)||/||b|| 5.897519391579e-05
28 KSP unpreconditioned resid norm 1.852177694782e+02 true resid norm
1.800935543889e+02 ||r(i)||/||b|| 5.928474141066e-05
29 KSP unpreconditioned resid norm 1.844720976468e+02 true resid norm
1.806835899755e+02 ||r(i)||/||b|| 5.947897438749e-05
30 KSP unpreconditioned resid norm 1.843525447108e+02 true resid norm
1.811351238391e+02 ||r(i)||/||b|| 5.962761417881e-05
31 KSP unpreconditioned resid norm 1.834262885149e+02 true resid norm
1.778584233423e+02 ||r(i)||/||b|| 5.854896179565e-05
32 KSP unpreconditioned resid norm 1.833523213017e+02 true resid norm
1.773290649733e+02 ||r(i)||/||b|| 5.837470306591e-05
33 KSP unpreconditioned resid norm 1.821645929344e+02 true resid norm
1.781151248933e+02 ||r(i)||/||b|| 5.863346501467e-05
34 KSP unpreconditioned resid norm 1.820831279534e+02 true resid norm
1.789778939067e+02 ||r(i)||/||b|| 5.891747872094e-05
35 KSP unpreconditioned resid norm 1.814860919375e+02 true resid norm
1.757339506869e+02 ||r(i)||/||b|| 5.784960965928e-05
36 KSP unpreconditioned resid norm 1.812512010159e+02 true resid norm
1.764086437459e+02 ||r(i)||/||b|| 5.807171090922e-05
37 KSP unpreconditioned resid norm 1.804298150360e+02 true resid norm
1.780147196442e+02 ||r(i)||/||b|| 5.860041275333e-05
38 KSP unpreconditioned resid norm 1.799675012847e+02 true resid norm
1.780554543786e+02 ||r(i)||/||b|| 5.861382216269e-05
39 KSP unpreconditioned resid norm 1.793156052097e+02 true resid norm
1.747985717965e+02 ||r(i)||/||b|| 5.754169361071e-05
40 KSP unpreconditioned resid norm 1.789109248325e+02 true resid norm
1.734086984879e+02 ||r(i)||/||b|| 5.708416319009e-05
41 KSP unpreconditioned resid norm 1.788931581371e+02 true resid norm
1.766103879126e+02 ||r(i)||/||b|| 5.813812278494e-05
42 KSP unpreconditioned resid norm 1.785522436483e+02 true resid norm
1.762597032909e+02 ||r(i)||/||b|| 5.802268141233e-05
43 KSP unpreconditioned resid norm 1.783317950582e+02 true resid norm
1.752774080448e+02 ||r(i)||/||b|| 5.769932103530e-05
44 KSP unpreconditioned resid norm 1.782832982797e+02 true resid norm
1.741667594885e+02 ||r(i)||/||b|| 5.733370821430e-05
45 KSP unpreconditioned resid norm 1.781302427969e+02 true resid norm
1.760315735899e+02 ||r(i)||/||b|| 5.794758372005e-05
46 KSP unpreconditioned resid norm 1.780557458973e+02 true resid norm
1.757279911034e+02 ||r(i)||/||b|| 5.784764783244e-05
47 KSP unpreconditioned resid norm 1.774691940686e+02 true resid norm
1.729436852773e+02 ||r(i)||/||b|| 5.693108615167e-05
48 KSP unpreconditioned resid norm 1.771436357084e+02 true resid norm
1.734001323688e+02 ||r(i)||/||b|| 5.708134332148e-05
49 KSP unpreconditioned resid norm 1.756105727417e+02 true resid norm
1.740222172981e+02 ||r(i)||/||b|| 5.728612657594e-05
50 KSP unpreconditioned resid norm 1.756011794480e+02 true resid norm
1.736979026533e+02 ||r(i)||/||b|| 5.717936589858e-05
51 KSP unpreconditioned resid norm 1.751096154950e+02 true resid norm
1.713154407940e+02 ||r(i)||/||b|| 5.639508666256e-05
52 KSP unpreconditioned resid norm 1.712639990486e+02 true resid norm
1.684444278579e+02 ||r(i)||/||b|| 5.544998199137e-05
53 KSP unpreconditioned resid norm 1.710183053728e+02 true resid norm
1.692712952670e+02 ||r(i)||/||b|| 5.572217729951e-05
54 KSP unpreconditioned resid norm 1.655470115849e+02 true resid norm
1.631767858448e+02 ||r(i)||/||b|| 5.371593439788e-05
55 KSP unpreconditioned resid norm 1.648313805392e+02 true resid norm
1.617509396670e+02 ||r(i)||/||b|| 5.324656211951e-05
56 KSP unpreconditioned resid norm 1.643417766012e+02 true resid norm
1.614766932468e+02 ||r(i)||/||b|| 5.315628332992e-05
57 KSP unpreconditioned resid norm 1.643165564782e+02 true resid norm
1.611660297521e+02 ||r(i)||/||b|| 5.305401645527e-05
58 KSP unpreconditioned resid norm 1.639561245303e+02 true resid norm
1.616105878219e+02 ||r(i)||/||b|| 5.320035989496e-05
59 KSP unpreconditioned resid norm 1.636859175366e+02 true resid norm
1.601704798933e+02 ||r(i)||/||b|| 5.272629281109e-05
60 KSP unpreconditioned resid norm 1.633269681891e+02 true resid norm
1.603249334191e+02 ||r(i)||/||b|| 5.277713714789e-05
61 KSP unpreconditioned resid norm 1.633257086864e+02 true resid norm
1.602922744638e+02 ||r(i)||/||b|| 5.276638619280e-05
62 KSP unpreconditioned resid norm 1.629449737049e+02 true resid norm
1.605812790996e+02 ||r(i)||/||b|| 5.286152321842e-05
63 KSP unpreconditioned resid norm 1.629422151091e+02 true resid norm
1.589656479615e+02 ||r(i)||/||b|| 5.232967589850e-05
64 KSP unpreconditioned resid norm 1.624767340901e+02 true resid norm
1.601925152173e+02 ||r(i)||/||b|| 5.273354658809e-05
65 KSP unpreconditioned resid norm 1.614000473427e+02 true resid norm
1.600055285874e+02 ||r(i)||/||b|| 5.267199272497e-05
66 KSP unpreconditioned resid norm 1.599192711038e+02 true resid norm
1.602225820054e+02 ||r(i)||/||b|| 5.274344423136e-05
67 KSP unpreconditioned resid norm 1.562002802473e+02 true resid norm
1.582069452329e+02 ||r(i)||/||b|| 5.207991962471e-05
68 KSP unpreconditioned resid norm 1.552436010567e+02 true resid norm
1.584249134588e+02 ||r(i)||/||b|| 5.215167227548e-05
69 KSP unpreconditioned resid norm 1.507627069906e+02 true resid norm
1.530713322210e+02 ||r(i)||/||b|| 5.038933447066e-05
70 KSP unpreconditioned resid norm 1.503802419288e+02 true resid norm
1.526772130725e+02 ||r(i)||/||b|| 5.025959494786e-05
71 KSP unpreconditioned resid norm 1.483645684459e+02 true resid norm
1.509599328686e+02 ||r(i)||/||b|| 4.969428591633e-05
72 KSP unpreconditioned resid norm 1.481979533059e+02 true resid norm
1.535340885300e+02 ||r(i)||/||b|| 5.054166856281e-05
73 KSP unpreconditioned resid norm 1.481400704979e+02 true resid norm
1.509082933863e+02 ||r(i)||/||b|| 4.967728678847e-05
74 KSP unpreconditioned resid norm 1.481132272449e+02 true resid norm
1.513298398754e+02 ||r(i)||/||b|| 4.981605507858e-05
75 KSP unpreconditioned resid norm 1.481101708026e+02 true resid norm
1.502466334943e+02 ||r(i)||/||b|| 4.945947590828e-05
76 KSP unpreconditioned resid norm 1.481010335860e+02 true resid norm
1.533384206564e+02 ||r(i)||/||b|| 5.047725693339e-05
77 KSP unpreconditioned resid norm 1.480865328511e+02 true resid norm
1.508354096349e+02 ||r(i)||/||b|| 4.965329428986e-05
78 KSP unpreconditioned resid norm 1.480582653674e+02 true resid norm
1.493335938981e+02 ||r(i)||/||b|| 4.915891370027e-05
79 KSP unpreconditioned resid norm 1.480031554288e+02 true resid norm
1.505131104808e+02 ||r(i)||/||b|| 4.954719708903e-05
80 KSP unpreconditioned resid norm 1.479574822714e+02 true resid norm
1.540226621640e+02 ||r(i)||/||b|| 5.070250142355e-05
81 KSP unpreconditioned resid norm 1.479574535946e+02 true resid norm
1.498368142318e+02 ||r(i)||/||b|| 4.932456808727e-05
82 KSP unpreconditioned resid norm 1.479436001532e+02 true resid norm
1.512355315895e+02 ||r(i)||/||b|| 4.978500986785e-05
83 KSP unpreconditioned resid norm 1.479410419985e+02 true resid norm
1.513924042216e+02 ||r(i)||/||b|| 4.983665054686e-05
84 KSP unpreconditioned resid norm 1.477087197314e+02 true resid norm
1.519847216835e+02 ||r(i)||/||b|| 5.003163469095e-05
85 KSP unpreconditioned resid norm 1.477081559094e+02 true resid norm
1.507153721984e+02 ||r(i)||/||b|| 4.961377933660e-05
86 KSP unpreconditioned resid norm 1.476420890986e+02 true resid norm
1.512147907360e+02 ||r(i)||/||b|| 4.977818221576e-05
87 KSP unpreconditioned resid norm 1.476086929880e+02 true resid norm
1.508513380647e+02 ||r(i)||/||b|| 4.965853774704e-05
88 KSP unpreconditioned resid norm 1.475729830724e+02 true resid norm
1.521640656963e+02 ||r(i)||/||b|| 5.009067269183e-05
89 KSP unpreconditioned resid norm 1.472338605465e+02 true resid norm
1.506094588356e+02 ||r(i)||/||b|| 4.957891386713e-05
90 KSP unpreconditioned resid norm 1.472079944867e+02 true resid norm
1.504582871439e+02 ||r(i)||/||b|| 4.952914987262e-05
91 KSP unpreconditioned resid norm 1.469363056078e+02 true resid norm
1.506425446156e+02 ||r(i)||/||b|| 4.958980532804e-05
92 KSP unpreconditioned resid norm 1.469110799022e+02 true resid norm
1.509842019134e+02 ||r(i)||/||b|| 4.970227500870e-05
93 KSP unpreconditioned resid norm 1.468779696240e+02 true resid norm
1.501105195969e+02 ||r(i)||/||b|| 4.941466876770e-05
94 KSP unpreconditioned resid norm 1.468777757710e+02 true resid norm
1.491460779150e+02 ||r(i)||/||b|| 4.909718558007e-05
95 KSP unpreconditioned resid norm 1.468774588833e+02 true resid norm
1.519041612996e+02 ||r(i)||/||b|| 5.000511513258e-05
96 KSP unpreconditioned resid norm 1.468771672305e+02 true resid norm
1.508986277767e+02 ||r(i)||/||b|| 4.967410498018e-05
97 KSP unpreconditioned resid norm 1.468771086724e+02 true resid norm
1.500987040931e+02 ||r(i)||/||b|| 4.941077923878e-05
98 KSP unpreconditioned resid norm 1.468769529855e+02 true resid norm
1.509749203169e+02 ||r(i)||/||b|| 4.969921961314e-05
99 KSP unpreconditioned resid norm 1.468539019917e+02 true resid norm
1.505087391266e+02 ||r(i)||/||b|| 4.954575808916e-05
100 KSP unpreconditioned resid norm 1.468527260351e+02 true resid norm
1.519470484364e+02 ||r(i)||/||b|| 5.001923308823e-05
101 KSP unpreconditioned resid norm 1.468342327062e+02 true resid norm
1.489814197970e+02 ||r(i)||/||b|| 4.904298200804e-05
102 KSP unpreconditioned resid norm 1.468333201903e+02 true resid norm
1.491479405434e+02 ||r(i)||/||b|| 4.909779873608e-05
103 KSP unpreconditioned resid norm 1.468287736823e+02 true resid norm
1.496401088908e+02 ||r(i)||/||b|| 4.925981493540e-05
104 KSP unpreconditioned resid norm 1.468269778777e+02 true resid norm
1.509676608058e+02 ||r(i)||/||b|| 4.969682986500e-05
105 KSP unpreconditioned resid norm 1.468214752527e+02 true resid norm
1.500441644659e+02 ||r(i)||/||b|| 4.939282541636e-05
106 KSP unpreconditioned resid norm 1.468208033546e+02 true resid norm
1.510964155942e+02 ||r(i)||/||b|| 4.973921447094e-05
107 KSP unpreconditioned resid norm 1.467590018852e+02 true resid norm
1.512302088409e+02 ||r(i)||/||b|| 4.978325767980e-05
108 KSP unpreconditioned resid norm 1.467588908565e+02 true resid norm
1.501053278370e+02 ||r(i)||/||b|| 4.941295969963e-05
109 KSP unpreconditioned resid norm 1.467570731153e+02 true resid norm
1.485494378220e+02 ||r(i)||/||b|| 4.890077847519e-05
110 KSP unpreconditioned resid norm 1.467399860352e+02 true resid norm
1.504418099302e+02 ||r(i)||/||b|| 4.952372576205e-05
111 KSP unpreconditioned resid norm 1.467095654863e+02 true resid norm
1.507288583410e+02 ||r(i)||/||b|| 4.961821882075e-05
112 KSP unpreconditioned resid norm 1.467065865602e+02 true resid norm
1.517786399520e+02 ||r(i)||/||b|| 4.996379493842e-05
113 KSP unpreconditioned resid norm 1.466898232510e+02 true resid norm
1.491434236258e+02 ||r(i)||/||b|| 4.909631181838e-05
114 KSP unpreconditioned resid norm 1.466897921426e+02 true resid norm
1.505605420512e+02 ||r(i)||/||b|| 4.956281102033e-05
115 KSP unpreconditioned resid norm 1.466593121787e+02 true resid norm
1.500608650677e+02 ||r(i)||/||b|| 4.939832306376e-05
116 KSP unpreconditioned resid norm 1.466590894710e+02 true resid norm
1.503102560128e+02 ||r(i)||/||b|| 4.948041971478e-05
117 KSP unpreconditioned resid norm 1.465338856917e+02 true resid norm
1.501331730933e+02 ||r(i)||/||b|| 4.942212604002e-05
118 KSP unpreconditioned resid norm 1.464192893188e+02 true resid norm
1.505131429801e+02 ||r(i)||/||b|| 4.954720778744e-05
119 KSP unpreconditioned resid norm 1.463859793112e+02 true resid norm
1.504355712014e+02 ||r(i)||/||b|| 4.952167204377e-05
120 KSP unpreconditioned resid norm 1.459254939182e+02 true resid norm
1.526513923221e+02 ||r(i)||/||b|| 5.025109505170e-05
121 KSP unpreconditioned resid norm 1.456973020864e+02 true resid norm
1.496897691500e+02 ||r(i)||/||b|| 4.927616252562e-05
122 KSP unpreconditioned resid norm 1.456904663212e+02 true resid norm
1.488752755634e+02 ||r(i)||/||b|| 4.900804053853e-05
123 KSP unpreconditioned resid norm 1.449254956591e+02 true resid norm
1.494048196254e+02 ||r(i)||/||b|| 4.918236039628e-05
124 KSP unpreconditioned resid norm 1.448408616171e+02 true resid norm
1.507801939332e+02 ||r(i)||/||b|| 4.963511791142e-05
125 KSP unpreconditioned resid norm 1.447662934870e+02 true resid norm
1.495157701445e+02 ||r(i)||/||b|| 4.921888404010e-05
126 KSP unpreconditioned resid norm 1.446934748257e+02 true resid norm
1.511098625097e+02 ||r(i)||/||b|| 4.974364104196e-05
127 KSP unpreconditioned resid norm 1.446892504333e+02 true resid norm
1.493367018275e+02 ||r(i)||/||b|| 4.915993679512e-05
128 KSP unpreconditioned resid norm 1.446838883996e+02 true resid norm
1.510097796622e+02 ||r(i)||/||b|| 4.971069491153e-05
129 KSP unpreconditioned resid norm 1.446696373784e+02 true resid norm
1.463776964101e+02 ||r(i)||/||b|| 4.818586600396e-05
130 KSP unpreconditioned resid norm 1.446690766798e+02 true resid norm
1.495018999638e+02 ||r(i)||/||b|| 4.921431813499e-05
131 KSP unpreconditioned resid norm 1.446480744133e+02 true resid norm
1.499605592408e+02 ||r(i)||/||b|| 4.936530353102e-05
132 KSP unpreconditioned resid norm 1.446220543422e+02 true resid norm
1.498225445439e+02 ||r(i)||/||b|| 4.931987066895e-05
133 KSP unpreconditioned resid norm 1.446156526760e+02 true resid norm
1.481441673781e+02 ||r(i)||/||b|| 4.876736807329e-05
134 KSP unpreconditioned resid norm 1.446152477418e+02 true resid norm
1.501616466283e+02 ||r(i)||/||b|| 4.943149920257e-05
135 KSP unpreconditioned resid norm 1.445744489044e+02 true resid norm
1.505958339620e+02 ||r(i)||/||b|| 4.957442871432e-05
136 KSP unpreconditioned resid norm 1.445307936181e+02 true resid norm
1.502091787932e+02 ||r(i)||/||b|| 4.944714624841e-05
137 KSP unpreconditioned resid norm 1.444543817248e+02 true resid norm
1.491871661616e+02 ||r(i)||/||b|| 4.911071136162e-05
138 KSP unpreconditioned resid norm 1.444176915911e+02 true resid norm
1.478091693367e+02 ||r(i)||/||b|| 4.865709054379e-05
139 KSP unpreconditioned resid norm 1.444173719058e+02 true resid norm
1.495962731374e+02 ||r(i)||/||b|| 4.924538470600e-05
140 KSP unpreconditioned resid norm 1.444075340820e+02 true resid norm
1.515103203654e+02 ||r(i)||/||b|| 4.987546719477e-05
141 KSP unpreconditioned resid norm 1.444050342939e+02 true resid norm
1.498145746307e+02 ||r(i)||/||b|| 4.931724706454e-05
142 KSP unpreconditioned resid norm 1.443757787691e+02 true resid norm
1.492291154146e+02 ||r(i)||/||b|| 4.912452057664e-05
143 KSP unpreconditioned resid norm 1.440588930707e+02 true resid norm
1.485032724987e+02 ||r(i)||/||b|| 4.888558137795e-05
144 KSP unpreconditioned resid norm 1.438299468441e+02 true resid norm
1.506129385276e+02 ||r(i)||/||b|| 4.958005934200e-05
145 KSP unpreconditioned resid norm 1.434543079403e+02 true resid norm
1.471733741230e+02 ||r(i)||/||b|| 4.844779402032e-05
146 KSP unpreconditioned resid norm 1.433157223870e+02 true resid norm
1.481025707968e+02 ||r(i)||/||b|| 4.875367495378e-05
147 KSP unpreconditioned resid norm 1.430111913458e+02 true resid norm
1.485000481919e+02 ||r(i)||/||b|| 4.888451997299e-05
148 KSP unpreconditioned resid norm 1.430056153071e+02 true resid norm
1.496425172884e+02 ||r(i)||/||b|| 4.926060775239e-05
149 KSP unpreconditioned resid norm 1.429327762233e+02 true resid norm
1.467613264791e+02 ||r(i)||/||b|| 4.831215264157e-05
150 KSP unpreconditioned resid norm 1.424230217603e+02 true resid norm
1.460277537447e+02 ||r(i)||/||b|| 4.807066887493e-05
151 KSP unpreconditioned resid norm 1.421912821676e+02 true resid norm
1.470486188164e+02 ||r(i)||/||b|| 4.840672599809e-05
152 KSP unpreconditioned resid norm 1.420344275315e+02 true resid norm
1.481536901943e+02 ||r(i)||/||b|| 4.877050287565e-05
153 KSP unpreconditioned resid norm 1.420071178597e+02 true resid norm
1.450813684108e+02 ||r(i)||/||b|| 4.775912963085e-05
154 KSP unpreconditioned resid norm 1.419367456470e+02 true resid norm
1.472052819440e+02 ||r(i)||/||b|| 4.845829771059e-05
155 KSP unpreconditioned resid norm 1.419032748919e+02 true resid norm
1.479193155584e+02 ||r(i)||/||b|| 4.869334942209e-05
156 KSP unpreconditioned resid norm 1.418899781440e+02 true resid norm
1.478677351572e+02 ||r(i)||/||b|| 4.867636974307e-05
157 KSP unpreconditioned resid norm 1.418895621075e+02 true resid norm
1.455168237674e+02 ||r(i)||/||b|| 4.790247656128e-05
158 KSP unpreconditioned resid norm 1.418061469023e+02 true resid norm
1.467147028974e+02 ||r(i)||/||b|| 4.829680469093e-05
159 KSP unpreconditioned resid norm 1.417948698213e+02 true resid norm
1.478376854834e+02 ||r(i)||/||b|| 4.866647773362e-05
160 KSP unpreconditioned resid norm 1.415166832324e+02 true resid norm
1.475436433192e+02 ||r(i)||/||b|| 4.856968241116e-05
161 KSP unpreconditioned resid norm 1.414939087573e+02 true resid norm
1.468361945080e+02 ||r(i)||/||b|| 4.833679834170e-05
162 KSP unpreconditioned resid norm 1.414544622036e+02 true resid norm
1.475730757600e+02 ||r(i)||/||b|| 4.857937123456e-05
163 KSP unpreconditioned resid norm 1.413780373982e+02 true resid norm
1.463891808066e+02 ||r(i)||/||b|| 4.818964653614e-05
164 KSP unpreconditioned resid norm 1.413741853943e+02 true resid norm
1.481999741168e+02 ||r(i)||/||b|| 4.878573901436e-05
165 KSP unpreconditioned resid norm 1.413725682642e+02 true resid norm
1.458413423932e+02 ||r(i)||/||b|| 4.800930438685e-05
166 KSP unpreconditioned resid norm 1.412970845566e+02 true resid norm
1.481492296610e+02 ||r(i)||/||b|| 4.876903451901e-05
167 KSP unpreconditioned resid norm 1.410100899597e+02 true resid norm
1.468338434340e+02 ||r(i)||/||b|| 4.833602439497e-05
168 KSP unpreconditioned resid norm 1.409983320599e+02 true resid norm
1.485378957202e+02 ||r(i)||/||b|| 4.889697894709e-05
169 KSP unpreconditioned resid norm 1.407688141293e+02 true resid norm
1.461003623074e+02 ||r(i)||/||b|| 4.809457078458e-05
170 KSP unpreconditioned resid norm 1.407072771004e+02 true resid norm
1.463217409181e+02 ||r(i)||/||b|| 4.816744609502e-05
171 KSP unpreconditioned resid norm 1.407069670790e+02 true resid norm
1.464695099700e+02 ||r(i)||/||b|| 4.821608997937e-05
172 KSP unpreconditioned resid norm 1.402361094414e+02 true resid norm
1.493786053835e+02 ||r(i)||/||b|| 4.917373096721e-05
173 KSP unpreconditioned resid norm 1.400618325859e+02 true resid norm
1.465475533254e+02 ||r(i)||/||b|| 4.824178096070e-05
174 KSP unpreconditioned resid norm 1.400573078320e+02 true resid norm
1.471993735980e+02 ||r(i)||/||b|| 4.845635275056e-05
175 KSP unpreconditioned resid norm 1.400258865388e+02 true resid norm
1.479779387468e+02 ||r(i)||/||b|| 4.871264750624e-05
176 KSP unpreconditioned resid norm 1.396589283831e+02 true resid norm
1.476626943974e+02 ||r(i)||/||b|| 4.860887266654e-05
177 KSP unpreconditioned resid norm 1.395796112440e+02 true resid norm
1.443093901655e+02 ||r(i)||/||b|| 4.750500320860e-05
178 KSP unpreconditioned resid norm 1.394749154493e+02 true resid norm
1.447914005206e+02 ||r(i)||/||b|| 4.766367551289e-05
179 KSP unpreconditioned resid norm 1.394476969416e+02 true resid norm
1.455635964329e+02 ||r(i)||/||b|| 4.791787358864e-05
180 KSP unpreconditioned resid norm 1.391990722790e+02 true resid norm
1.457511594620e+02 ||r(i)||/||b|| 4.797961719582e-05
181 KSP unpreconditioned resid norm 1.391686315799e+02 true resid norm
1.460567495143e+02 ||r(i)||/||b|| 4.808021395114e-05
182 KSP unpreconditioned resid norm 1.387654475794e+02 true resid norm
1.468215388414e+02 ||r(i)||/||b|| 4.833197386362e-05
183 KSP unpreconditioned resid norm 1.384925240232e+02 true resid norm
1.456091052791e+02 ||r(i)||/||b|| 4.793285458106e-05
184 KSP unpreconditioned resid norm 1.378003249970e+02 true resid norm
1.453421051371e+02 ||r(i)||/||b|| 4.784496118351e-05
185 KSP unpreconditioned resid norm 1.377904214978e+02 true resid norm
1.441752187090e+02 ||r(i)||/||b|| 4.746083549740e-05
186 KSP unpreconditioned resid norm 1.376670282479e+02 true resid norm
1.441674745344e+02 ||r(i)||/||b|| 4.745828620353e-05
187 KSP unpreconditioned resid norm 1.376636051755e+02 true resid norm
1.463118783906e+02 ||r(i)||/||b|| 4.816419946362e-05
188 KSP unpreconditioned resid norm 1.363148994276e+02 true resid norm
1.432997756128e+02 ||r(i)||/||b|| 4.717264962781e-05
189 KSP unpreconditioned resid norm 1.363051099558e+02 true resid norm
1.451009062639e+02 ||r(i)||/||b|| 4.776556126897e-05
190 KSP unpreconditioned resid norm 1.362538398564e+02 true resid norm
1.438957985476e+02 ||r(i)||/||b|| 4.736885357127e-05
191 KSP unpreconditioned resid norm 1.358335705250e+02 true resid norm
1.436616069458e+02 ||r(i)||/||b|| 4.729176037047e-05
192 KSP unpreconditioned resid norm 1.337424103882e+02 true resid norm
1.432816138672e+02 ||r(i)||/||b|| 4.716667098856e-05
193 KSP unpreconditioned resid norm 1.337419543121e+02 true resid norm
1.405274691954e+02 ||r(i)||/||b|| 4.626003801533e-05
194 KSP unpreconditioned resid norm 1.322568117657e+02 true resid norm
1.417123189671e+02 ||r(i)||/||b|| 4.665007702902e-05
195 KSP unpreconditioned resid norm 1.320880115122e+02 true resid norm
1.413658215058e+02 ||r(i)||/||b|| 4.653601402181e-05
196 KSP unpreconditioned resid norm 1.312526182172e+02 true resid norm
1.420574070412e+02 ||r(i)||/||b|| 4.676367608204e-05
197 KSP unpreconditioned resid norm 1.311651332692e+02 true resid norm
1.398984125128e+02 ||r(i)||/||b|| 4.605295973934e-05
198 KSP unpreconditioned resid norm 1.294482397720e+02 true resid norm
1.380390703259e+02 ||r(i)||/||b|| 4.544088552537e-05
199 KSP unpreconditioned resid norm 1.293598434732e+02 true resid norm
1.373830689903e+02 ||r(i)||/||b|| 4.522493737731e-05
200 KSP unpreconditioned resid norm 1.265165992897e+02 true resid norm
1.375015523244e+02 ||r(i)||/||b|| 4.526394073779e-05
201 KSP unpreconditioned resid norm 1.263813235463e+02 true resid norm
1.356820166419e+02 ||r(i)||/||b|| 4.466497037047e-05
202 KSP unpreconditioned resid norm 1.243190164198e+02 true resid norm
1.366420975402e+02 ||r(i)||/||b|| 4.498101803792e-05
203 KSP unpreconditioned resid norm 1.230747513665e+02 true resid norm
1.348856851681e+02 ||r(i)||/||b|| 4.440282714351e-05
204 KSP unpreconditioned resid norm 1.198014010398e+02 true resid norm
1.325188356617e+02 ||r(i)||/||b|| 4.362368731578e-05
205 KSP unpreconditioned resid norm 1.195977240348e+02 true resid norm
1.299721846860e+02 ||r(i)||/||b|| 4.278535889769e-05
206 KSP unpreconditioned resid norm 1.130620928393e+02 true resid norm
1.266961052950e+02 ||r(i)||/||b|| 4.170691097546e-05
207 KSP unpreconditioned resid norm 1.123992882530e+02 true resid norm
1.270907813369e+02 ||r(i)||/||b|| 4.183683382120e-05
208 KSP unpreconditioned resid norm 1.063236317163e+02 true resid norm
1.182163029843e+02 ||r(i)||/||b|| 3.891545689533e-05
209 KSP unpreconditioned resid norm 1.059802897214e+02 true resid norm
1.187516613498e+02 ||r(i)||/||b|| 3.909169075539e-05
210 KSP unpreconditioned resid norm 9.878733567790e+01 true resid norm
1.124812677115e+02 ||r(i)||/||b|| 3.702754877846e-05
211 KSP unpreconditioned resid norm 9.861048081032e+01 true resid norm
1.117192174341e+02 ||r(i)||/||b|| 3.677669052986e-05
212 KSP unpreconditioned resid norm 9.169383217455e+01 true resid norm
1.102172324977e+02 ||r(i)||/||b|| 3.628225424167e-05
213 KSP unpreconditioned resid norm 9.146164223196e+01 true resid norm
1.121134424773e+02 ||r(i)||/||b|| 3.690646491198e-05
214 KSP unpreconditioned resid norm 8.692213412954e+01 true resid norm
1.056264039532e+02 ||r(i)||/||b|| 3.477100591276e-05
215 KSP unpreconditioned resid norm 8.685846611574e+01 true resid norm
1.029018845366e+02 ||r(i)||/||b|| 3.387412523521e-05
216 KSP unpreconditioned resid norm 7.808516472373e+01 true resid norm
9.749023000535e+01 ||r(i)||/||b|| 3.209267036539e-05
217 KSP unpreconditioned resid norm 7.786400257086e+01 true resid norm
1.004515546585e+02 ||r(i)||/||b|| 3.306750462244e-05
218 KSP unpreconditioned resid norm 6.646475864029e+01 true resid norm
9.429020541969e+01 ||r(i)||/||b|| 3.103925881653e-05
219 KSP unpreconditioned resid norm 6.643821996375e+01 true resid norm
8.864525788550e+01 ||r(i)||/||b|| 2.918100655438e-05
220 KSP unpreconditioned resid norm 5.625046780791e+01 true resid norm
8.410041684883e+01 ||r(i)||/||b|| 2.768489678784e-05
221 KSP unpreconditioned resid norm 5.623343238032e+01 true resid norm
8.815552919640e+01 ||r(i)||/||b|| 2.901979346270e-05
222 KSP unpreconditioned resid norm 4.491016868776e+01 true resid norm
8.557052117768e+01 ||r(i)||/||b|| 2.816883834410e-05
223 KSP unpreconditioned resid norm 4.461976108543e+01 true resid norm
7.867894425332e+01 ||r(i)||/||b|| 2.590020992340e-05
224 KSP unpreconditioned resid norm 3.535718264955e+01 true resid norm
7.609346753983e+01 ||r(i)||/||b|| 2.504910051583e-05
225 KSP unpreconditioned resid norm 3.525592897743e+01 true resid norm
7.926812413349e+01 ||r(i)||/||b|| 2.609416121143e-05
226 KSP unpreconditioned resid norm 2.633469451114e+01 true resid norm
7.883483297310e+01 ||r(i)||/||b|| 2.595152670968e-05
227 KSP unpreconditioned resid norm 2.614440577316e+01 true resid norm
7.398963634249e+01 ||r(i)||/||b|| 2.435654331172e-05
228 KSP unpreconditioned resid norm 1.988460252721e+01 true resid norm
7.147825835126e+01 ||r(i)||/||b|| 2.352982635730e-05
229 KSP unpreconditioned resid norm 1.975927240058e+01 true resid norm
7.488507147714e+01 ||r(i)||/||b|| 2.465131033205e-05
230 KSP unpreconditioned resid norm 1.505732242656e+01 true resid norm
7.888901529160e+01 ||r(i)||/||b|| 2.596936291016e-05
231 KSP unpreconditioned resid norm 1.504120870628e+01 true resid norm
7.126366562975e+01 ||r(i)||/||b|| 2.345918488406e-05
232 KSP unpreconditioned resid norm 1.163470506257e+01 true resid norm
7.142763663542e+01 ||r(i)||/||b|| 2.351316226655e-05
233 KSP unpreconditioned resid norm 1.157114340949e+01 true resid norm
7.464790352976e+01 ||r(i)||/||b|| 2.457323735226e-05
234 KSP unpreconditioned resid norm 8.702850618357e+00 true resid norm
7.798031063059e+01 ||r(i)||/||b|| 2.567022771329e-05
235 KSP unpreconditioned resid norm 8.702017371082e+00 true resid norm
7.032943782131e+01 ||r(i)||/||b|| 2.315164775854e-05
236 KSP unpreconditioned resid norm 6.422855779486e+00 true resid norm
6.800345168870e+01 ||r(i)||/||b|| 2.238595968678e-05
237 KSP unpreconditioned resid norm 6.413921210094e+00 true resid norm
7.408432731879e+01 ||r(i)||/||b|| 2.438771449973e-05
238 KSP unpreconditioned resid norm 4.949111361190e+00 true resid norm
7.744087979524e+01 ||r(i)||/||b|| 2.549265324267e-05
239 KSP unpreconditioned resid norm 4.947369357666e+00 true resid norm
7.104259266677e+01 ||r(i)||/||b|| 2.338641018933e-05
240 KSP unpreconditioned resid norm 3.873645232239e+00 true resid norm
6.908028336929e+01 ||r(i)||/||b|| 2.274044037845e-05
241 KSP unpreconditioned resid norm 3.841473653930e+00 true resid norm
7.431718972562e+01 ||r(i)||/||b|| 2.446437014474e-05
242 KSP unpreconditioned resid norm 3.057267436362e+00 true resid norm
7.685939322732e+01 ||r(i)||/||b|| 2.530123450517e-05
243 KSP unpreconditioned resid norm 2.980906717815e+00 true resid norm
6.975661521135e+01 ||r(i)||/||b|| 2.296308109705e-05
244 KSP unpreconditioned resid norm 2.415633545154e+00 true resid norm
6.989644258184e+01 ||r(i)||/||b|| 2.300911067057e-05
245 KSP unpreconditioned resid norm 2.363923146996e+00 true resid norm
7.486631867276e+01 ||r(i)||/||b|| 2.464513712301e-05
246 KSP unpreconditioned resid norm 1.947823635306e+00 true resid norm
7.671103669547e+01 ||r(i)||/||b|| 2.525239722914e-05
247 KSP unpreconditioned resid norm 1.942156637334e+00 true resid norm
6.835715877902e+01 ||r(i)||/||b|| 2.250239602152e-05
248 KSP unpreconditioned resid norm 1.675749569790e+00 true resid norm
7.111781390782e+01 ||r(i)||/||b|| 2.341117216285e-05
249 KSP unpreconditioned resid norm 1.673819729570e+00 true resid norm
7.552508026111e+01 ||r(i)||/||b|| 2.486199391474e-05
250 KSP unpreconditioned resid norm 1.453311843294e+00 true resid norm
7.639099426865e+01 ||r(i)||/||b|| 2.514704291716e-05
251 KSP unpreconditioned resid norm 1.452846325098e+00 true resid norm
6.951401359923e+01 ||r(i)||/||b|| 2.288321941689e-05
252 KSP unpreconditioned resid norm 1.335008887441e+00 true resid norm
6.912230871414e+01 ||r(i)||/||b|| 2.275427464204e-05
253 KSP unpreconditioned resid norm 1.334477013356e+00 true resid norm
7.412281497148e+01 ||r(i)||/||b|| 2.440038419546e-05
254 KSP unpreconditioned resid norm 1.248507835050e+00 true resid norm
7.801932499175e+01 ||r(i)||/||b|| 2.568307079543e-05
255 KSP unpreconditioned resid norm 1.248246596771e+00 true resid norm
7.094899926215e+01 ||r(i)||/||b|| 2.335560030938e-05
256 KSP unpreconditioned resid norm 1.208952722414e+00 true resid norm
7.101235824005e+01 ||r(i)||/||b|| 2.337645736134e-05
257 KSP unpreconditioned resid norm 1.208780664971e+00 true resid norm
7.562936418444e+01 ||r(i)||/||b|| 2.489632299136e-05
258 KSP unpreconditioned resid norm 1.179956701653e+00 true resid norm
7.812300941072e+01 ||r(i)||/||b|| 2.571720252207e-05
259 KSP unpreconditioned resid norm 1.179219541297e+00 true resid norm
7.131201918549e+01 ||r(i)||/||b|| 2.347510232240e-05
260 KSP unpreconditioned resid norm 1.160215487467e+00 true resid norm
7.222079766175e+01 ||r(i)||/||b|| 2.377426181841e-05
261 KSP unpreconditioned resid norm 1.159115040554e+00 true resid norm
7.481372509179e+01 ||r(i)||/||b|| 2.462782391678e-05
262 KSP unpreconditioned resid norm 1.151973184765e+00 true resid norm
7.709040836137e+01 ||r(i)||/||b|| 2.537728204907e-05
263 KSP unpreconditioned resid norm 1.150882463576e+00 true resid norm
7.032588895526e+01 ||r(i)||/||b|| 2.315047951236e-05
264 KSP unpreconditioned resid norm 1.137617003277e+00 true resid norm
7.004055871264e+01 ||r(i)||/||b|| 2.305655205500e-05
265 KSP unpreconditioned resid norm 1.137134003401e+00 true resid norm
7.610459827221e+01 ||r(i)||/||b|| 2.505276462582e-05
266 KSP unpreconditioned resid norm 1.131425778253e+00 true resid norm
7.852741072990e+01 ||r(i)||/||b|| 2.585032681802e-05
267 KSP unpreconditioned resid norm 1.131176695314e+00 true resid norm
7.064571495865e+01 ||r(i)||/||b|| 2.325576258022e-05
268 KSP unpreconditioned resid norm 1.125420065063e+00 true resid norm
7.138837220124e+01 ||r(i)||/||b|| 2.350023686323e-05
269 KSP unpreconditioned resid norm 1.124779989266e+00 true resid norm
7.585594020759e+01 ||r(i)||/||b|| 2.497090923065e-05
270 KSP unpreconditioned resid norm 1.119805446125e+00 true resid norm
7.703631305135e+01 ||r(i)||/||b|| 2.535947449079e-05
271 KSP unpreconditioned resid norm 1.119024433863e+00 true resid norm
7.081439585094e+01 ||r(i)||/||b|| 2.331129040360e-05
272 KSP unpreconditioned resid norm 1.115694452861e+00 true resid norm
7.134872343512e+01 ||r(i)||/||b|| 2.348718494222e-05
273 KSP unpreconditioned resid norm 1.113572716158e+00 true resid norm
7.600475566242e+01 ||r(i)||/||b|| 2.501989757889e-05
274 KSP unpreconditioned resid norm 1.108711406381e+00 true resid norm
7.738835220359e+01 ||r(i)||/||b|| 2.547536175937e-05
275 KSP unpreconditioned resid norm 1.107890435549e+00 true resid norm
7.093429729336e+01 ||r(i)||/||b|| 2.335076058915e-05
276 KSP unpreconditioned resid norm 1.103340227961e+00 true resid norm
7.145267197866e+01 ||r(i)||/||b|| 2.352140361564e-05
277 KSP unpreconditioned resid norm 1.102897652964e+00 true resid norm
7.448617654625e+01 ||r(i)||/||b|| 2.451999867624e-05
278 KSP unpreconditioned resid norm 1.102576754158e+00 true resid norm
7.707165090465e+01 ||r(i)||/||b|| 2.537110730854e-05
279 KSP unpreconditioned resid norm 1.102564028537e+00 true resid norm
7.009637628868e+01 ||r(i)||/||b|| 2.307492656359e-05
280 KSP unpreconditioned resid norm 1.100828424712e+00 true resid norm
7.059832880916e+01 ||r(i)||/||b|| 2.324016360096e-05
281 KSP unpreconditioned resid norm 1.100686341559e+00 true resid norm
7.460867988528e+01 ||r(i)||/||b|| 2.456032537644e-05
282 KSP unpreconditioned resid norm 1.099417185996e+00 true resid norm
7.763784632467e+01 ||r(i)||/||b|| 2.555749237477e-05
283 KSP unpreconditioned resid norm 1.099379061087e+00 true resid norm
7.017139420999e+01 ||r(i)||/||b|| 2.309962160657e-05
284 KSP unpreconditioned resid norm 1.097928047676e+00 true resid norm
6.983706716123e+01 ||r(i)||/||b|| 2.298956496018e-05
285 KSP unpreconditioned resid norm 1.096490152934e+00 true resid norm
7.414445779601e+01 ||r(i)||/||b|| 2.440750876614e-05
286 KSP unpreconditioned resid norm 1.094691490227e+00 true resid norm
7.634526287231e+01 ||r(i)||/||b|| 2.513198866374e-05
287 KSP unpreconditioned resid norm 1.093560358328e+00 true resid norm
7.003716824146e+01 ||r(i)||/||b|| 2.305543595061e-05
288 KSP unpreconditioned resid norm 1.093357856424e+00 true resid norm
6.964715939684e+01 ||r(i)||/||b|| 2.292704949292e-05
289 KSP unpreconditioned resid norm 1.091881434739e+00 true resid norm
7.429955169250e+01 ||r(i)||/||b|| 2.445856390566e-05
290 KSP unpreconditioned resid norm 1.091817808496e+00 true resid norm
7.607892786798e+01 ||r(i)||/||b|| 2.504431422190e-05
291 KSP unpreconditioned resid norm 1.090295101202e+00 true resid norm
6.942248339413e+01 ||r(i)||/||b|| 2.285308871866e-05
292 KSP unpreconditioned resid norm 1.089995012773e+00 true resid norm
6.995557798353e+01 ||r(i)||/||b|| 2.302857736947e-05
293 KSP unpreconditioned resid norm 1.089975910578e+00 true resid norm
7.453210925277e+01 ||r(i)||/||b|| 2.453511919866e-05
294 KSP unpreconditioned resid norm 1.085570944646e+00 true resid norm
7.629598425927e+01 ||r(i)||/||b|| 2.511576670710e-05
295 KSP unpreconditioned resid norm 1.085363565621e+00 true resid norm
7.025539955712e+01 ||r(i)||/||b|| 2.312727520749e-05
296 KSP unpreconditioned resid norm 1.083348574106e+00 true resid norm
7.003219621882e+01 ||r(i)||/||b|| 2.305379921754e-05
297 KSP unpreconditioned resid norm 1.082180374430e+00 true resid norm
7.473048827106e+01 ||r(i)||/||b|| 2.460042330597e-05
298 KSP unpreconditioned resid norm 1.081326671068e+00 true resid norm
7.660142838935e+01 ||r(i)||/||b|| 2.521631542651e-05
299 KSP unpreconditioned resid norm 1.078679751898e+00 true resid norm
7.077868424247e+01 ||r(i)||/||b|| 2.329953454992e-05
300 KSP unpreconditioned resid norm 1.078656949888e+00 true resid norm
7.074960394994e+01 ||r(i)||/||b|| 2.328996164972e-05
Linear solve did not converge due to DIVERGED_ITS iterations 300
KSP Object: 2 MPI processes
type: fgmres
GMRES: restart=300, using Modified Gram-Schmidt Orthogonalization
GMRES: happy breakdown tolerance 1e-30
maximum iterations=300, initial guess is zero
tolerances: relative=1e-09, absolute=1e-20, divergence=10000
right preconditioning
using UNPRECONDITIONED norm type for convergence test
PC Object: 2 MPI processes
type: fieldsplit
FieldSplit with Schur preconditioner, factorization DIAG
Preconditioner for the Schur complement formed from Sp, an assembled
approximation to S, which uses (lumped, if requested) A00's diagonal's
inverse
Split info:
Split number 0 Defined by IS
Split number 1 Defined by IS
KSP solver for A00 block
KSP Object: (fieldsplit_u_) 2 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: (fieldsplit_u_) 2 MPI processes
type: lu
LU: out-of-place factorization
tolerance for zero pivot 2.22045e-14
matrix ordering: natural
factor fill ratio given 0, needed 0
Factored matrix follows:
Mat Object: 2 MPI processes
type: mpiaij
rows=184326, cols=184326
package used to perform factorization: mumps
total: nonzeros=4.03041e+08, allocated nonzeros=4.03041e+08
total number of mallocs used during MatSetValues calls =0
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) (sequentia matrix ordering):7
ICNTL(8) (scalling strategy): 77
ICNTL(10) (max num of refinements): 0
ICNTL(11) (error analysis): 0
ICNTL(12) (efficiency control):
1
ICNTL(13) (efficiency control):
0
ICNTL(14) (percentage of estimated workspace increase):
20
ICNTL(18) (input mat struct):
3
ICNTL(19) (Shur complement info):
0
ICNTL(20) (rhs sparse pattern):
0
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) (experimental parameter):
-24
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
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
RINFO(1) (local estimated flops for the elimination
after analysis):
[0] 5.59214e+11
[1] 5.35237e+11
RINFO(2) (local estimated flops for the assembly after
factorization):
[0] 4.2839e+08
[1] 3.799e+08
RINFO(3) (local estimated flops for the elimination
after factorization):
[0] 5.59214e+11
[1] 5.35237e+11
INFO(15) (estimated size of (in MB) MUMPS internal data
for running numerical factorization):
[0] 2621
[1] 2649
INFO(16) (size of (in MB) MUMPS internal data used
during numerical factorization):
[0] 2621
[1] 2649
INFO(23) (num of pivots eliminated on this processor
after factorization):
[0] 90423
[1] 93903
RINFOG(1) (global estimated flops for the elimination
after analysis): 1.09445e+12
RINFOG(2) (global estimated flops for the assembly
after factorization): 8.0829e+08
RINFOG(3) (global estimated flops for the elimination
after factorization): 1.09445e+12
(RINFOG(12) RINFOG(13))*2^INFOG(34) (determinant):
(0,0)*(2^0)
INFOG(3) (estimated real workspace for factors on all
processors after analysis): 403041366
INFOG(4) (estimated integer workspace for factors on
all processors after analysis): 2265748
INFOG(5) (estimated maximum front size in the complete
tree): 6663
INFOG(6) (number of nodes in the complete tree): 2812
INFOG(7) (ordering option effectively use after
analysis): 5
INFOG(8) (structural symmetry in percent of the
permuted matrix after analysis): 100
INFOG(9) (total real/complex workspace to store the
matrix factors after factorization): 403041366
INFOG(10) (total integer space store the matrix factors
after factorization): 2265766
INFOG(11) (order of largest frontal matrix after
factorization): 6663
INFOG(12) (number of off-diagonal pivots): 0
INFOG(13) (number of delayed pivots after
factorization): 0
INFOG(14) (number of memory compress after
factorization): 0
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): 2649
INFOG(17) (estimated size of all MUMPS internal data
for factorization after analysis: sum over all processors): 5270
INFOG(18) (size of all MUMPS internal data allocated
during factorization: value on the most memory consuming processor): 2649
INFOG(19) (size of all MUMPS internal data allocated
during factorization: sum over all processors): 5270
INFOG(20) (estimated number of entries in the factors):
403041366
INFOG(21) (size in MB of memory effectively used during
factorization - value on the most memory consuming processor): 2121
INFOG(22) (size in MB of memory effectively used during
factorization - sum over all processors): 4174
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)): 403041366
INFOG(30, 31) (after solution: size in Mbytes of memory
used during solution phase): 2467, 4922
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
linear system matrix = precond matrix:
Mat Object: (fieldsplit_u_) 2 MPI processes
type: mpiaij
rows=184326, cols=184326, bs=3
total: nonzeros=3.32649e+07, allocated nonzeros=3.32649e+07
total number of mallocs used during MatSetValues calls =0
using I-node (on process 0) routines: found 26829 nodes, limit
used is 5
KSP solver for S = A11 - A10 inv(A00) A01
KSP Object: (fieldsplit_lu_) 2 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: (fieldsplit_lu_) 2 MPI processes
type: lu
LU: out-of-place factorization
tolerance for zero pivot 2.22045e-14
matrix ordering: natural
factor fill ratio given 0, needed 0
Factored matrix follows:
Mat Object: 2 MPI processes
type: mpiaij
rows=2583, cols=2583
package used to perform factorization: mumps
total: nonzeros=2.17621e+06, allocated nonzeros=2.17621e+06
total number of mallocs used during MatSetValues calls =0
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) (sequentia matrix ordering):7
ICNTL(8) (scalling strategy): 77
ICNTL(10) (max num of refinements): 0
ICNTL(11) (error analysis): 0
ICNTL(12) (efficiency control):
1
ICNTL(13) (efficiency control):
0
ICNTL(14) (percentage of estimated workspace increase):
20
ICNTL(18) (input mat struct):
3
ICNTL(19) (Shur complement info):
0
ICNTL(20) (rhs sparse pattern):
0
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) (experimental parameter):
-24
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
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
RINFO(1) (local estimated flops for the elimination
after analysis):
[0] 5.12794e+08
[1] 5.02142e+08
RINFO(2) (local estimated flops for the assembly after
factorization):
[0] 815031
[1] 745263
RINFO(3) (local estimated flops for the elimination
after factorization):
[0] 5.12794e+08
[1] 5.02142e+08
INFO(15) (estimated size of (in MB) MUMPS internal data
for running numerical factorization):
[0] 34
[1] 34
INFO(16) (size of (in MB) MUMPS internal data used
during numerical factorization):
[0] 34
[1] 34
INFO(23) (num of pivots eliminated on this processor
after factorization):
[0] 1158
[1] 1425
RINFOG(1) (global estimated flops for the elimination
after analysis): 1.01494e+09
RINFOG(2) (global estimated flops for the assembly
after factorization): 1.56029e+06
RINFOG(3) (global estimated flops for the elimination
after factorization): 1.01494e+09
(RINFOG(12) RINFOG(13))*2^INFOG(34) (determinant):
(0,0)*(2^0)
INFOG(3) (estimated real workspace for factors on all
processors after analysis): 2176209
INFOG(4) (estimated integer workspace for factors on
all processors after analysis): 14427
INFOG(5) (estimated maximum front size in the complete
tree): 699
INFOG(6) (number of nodes in the complete tree): 15
INFOG(7) (ordering option effectively use after
analysis): 2
INFOG(8) (structural symmetry in percent of the
permuted matrix after analysis): 100
INFOG(9) (total real/complex workspace to store the
matrix factors after factorization): 2176209
INFOG(10) (total integer space store the matrix factors
after factorization): 14427
INFOG(11) (order of largest frontal matrix after
factorization): 699
INFOG(12) (number of off-diagonal pivots): 0
INFOG(13) (number of delayed pivots after
factorization): 0
INFOG(14) (number of memory compress after
factorization): 0
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): 34
INFOG(17) (estimated size of all MUMPS internal data
for factorization after analysis: sum over all processors): 68
INFOG(18) (size of all MUMPS internal data allocated
during factorization: value on the most memory consuming processor): 34
INFOG(19) (size of all MUMPS internal data allocated
during factorization: sum over all processors): 68
INFOG(20) (estimated number of entries in the factors):
2176209
INFOG(21) (size in MB of memory effectively used during
factorization - value on the most memory consuming processor): 30
INFOG(22) (size in MB of memory effectively used during
factorization - sum over all processors): 59
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)): 2176209
INFOG(30, 31) (after solution: size in Mbytes of memory
used during solution phase): 16, 32
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
linear system matrix followed by preconditioner matrix:
Mat Object: (fieldsplit_lu_) 2 MPI processes
type: schurcomplement
rows=2583, cols=2583
Schur complement A11 - A10 inv(A00) A01
A11
Mat Object: (fieldsplit_lu_) 2 MPI
processes
type: mpiaij
rows=2583, cols=2583, bs=3
total: nonzeros=117369, allocated nonzeros=117369
total number of mallocs used during MatSetValues calls =0
not using I-node (on process 0) routines
A10
Mat Object: 2 MPI processes
type: mpiaij
rows=2583, cols=184326, rbs=3, cbs = 1
total: nonzeros=292770, allocated nonzeros=292770
total number of mallocs used during MatSetValues calls =0
not using I-node (on process 0) routines
KSP of A00
KSP Object: (fieldsplit_u_) 2 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: (fieldsplit_u_) 2 MPI
processes
type: lu
LU: out-of-place factorization
tolerance for zero pivot 2.22045e-14
matrix ordering: natural
factor fill ratio given 0, needed 0
Factored matrix follows:
Mat Object: 2 MPI processes
type: mpiaij
rows=184326, cols=184326
package used to perform factorization: mumps
total: nonzeros=4.03041e+08, allocated
nonzeros=4.03041e+08
total number of mallocs used during MatSetValues
calls =0
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) (sequentia matrix ordering):7
ICNTL(8) (scalling strategy): 77
ICNTL(10) (max num of refinements): 0
ICNTL(11) (error analysis): 0
ICNTL(12) (efficiency control):
1
ICNTL(13) (efficiency control):
0
ICNTL(14) (percentage of estimated workspace
increase): 20
ICNTL(18) (input mat struct):
3
ICNTL(19) (Shur complement info):
0
ICNTL(20) (rhs sparse pattern):
0
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) (experimental parameter):
-24
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
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
RINFO(1) (local estimated flops for the
elimination after analysis):
[0] 5.59214e+11
[1] 5.35237e+11
RINFO(2) (local estimated flops for the
assembly after factorization):
[0] 4.2839e+08
[1] 3.799e+08
RINFO(3) (local estimated flops for the
elimination after factorization):
[0] 5.59214e+11
[1] 5.35237e+11
INFO(15) (estimated size of (in MB) MUMPS
internal data for running numerical factorization):
[0] 2621
[1] 2649
INFO(16) (size of (in MB) MUMPS internal data
used during numerical factorization):
[0] 2621
[1] 2649
INFO(23) (num of pivots eliminated on this
processor after factorization):
[0] 90423
[1] 93903
RINFOG(1) (global estimated flops for the
elimination after analysis): 1.09445e+12
RINFOG(2) (global estimated flops for the
assembly after factorization): 8.0829e+08
RINFOG(3) (global estimated flops for the
elimination after factorization): 1.09445e+12
(RINFOG(12) RINFOG(13))*2^INFOG(34)
(determinant): (0,0)*(2^0)
INFOG(3) (estimated real workspace for factors
on all processors after analysis): 403041366
INFOG(4) (estimated integer workspace for
factors on all processors after analysis): 2265748
INFOG(5) (estimated maximum front size in the
complete tree): 6663
INFOG(6) (number of nodes in the complete
tree): 2812
INFOG(7) (ordering option effectively use after
analysis): 5
INFOG(8) (structural symmetry in percent of the
permuted matrix after analysis): 100
INFOG(9) (total real/complex workspace to store
the matrix factors after factorization): 403041366
INFOG(10) (total integer space store the matrix
factors after factorization): 2265766
INFOG(11) (order of largest frontal matrix
after factorization): 6663
INFOG(12) (number of off-diagonal pivots): 0
INFOG(13) (number of delayed pivots after
factorization): 0
INFOG(14) (number of memory compress after
factorization): 0
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): 2649
INFOG(17) (estimated size of all MUMPS internal
data for factorization after analysis: sum over all processors): 5270
INFOG(18) (size of all MUMPS internal data
allocated during factorization: value on the most memory consuming
processor): 2649
INFOG(19) (size of all MUMPS internal data
allocated during factorization: sum over all processors): 5270
INFOG(20) (estimated number of entries in the
factors): 403041366
INFOG(21) (size in MB of memory effectively
used during factorization - value on the most memory consuming processor):
2121
INFOG(22) (size in MB of memory effectively
used during factorization - sum over all processors): 4174
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)): 403041366
INFOG(30, 31) (after solution: size in Mbytes
of memory used during solution phase): 2467, 4922
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
linear system matrix = precond matrix:
Mat Object: (fieldsplit_u_)
2 MPI processes
type: mpiaij
rows=184326, cols=184326, bs=3
total: nonzeros=3.32649e+07, allocated
nonzeros=3.32649e+07
total number of mallocs used during MatSetValues calls =0
using I-node (on process 0) routines: found 26829
nodes, limit used is 5
A01
Mat Object: 2 MPI processes
type: mpiaij
rows=184326, cols=2583, rbs=3, cbs = 1
total: nonzeros=292770, allocated nonzeros=292770
total number of mallocs used during MatSetValues calls =0
using I-node (on process 0) routines: found 16098 nodes,
limit used is 5
Mat Object: 2 MPI processes
type: mpiaij
rows=2583, cols=2583, rbs=3, cbs = 1
total: nonzeros=1.25158e+06, allocated nonzeros=1.25158e+06
total number of mallocs used during MatSetValues calls =0
not using I-node (on process 0) routines
linear system matrix = precond matrix:
Mat Object: 2 MPI processes
type: mpiaij
rows=186909, cols=186909
total: nonzeros=3.39678e+07, allocated nonzeros=3.39678e+07
total number of mallocs used during MatSetValues calls =0
using I-node (on process 0) routines: found 26829 nodes, limit used
is 5
KSPSolve completed
Giang
On Sun, Apr 17, 2016 at 1:15 AM, Matthew Knepley <knepley at gmail.com> wrote:
> On Sat, Apr 16, 2016 at 6:54 PM, Hoang Giang Bui <hgbk2008 at gmail.com>
> wrote:
>
>> Hello
>>
>> I'm solving an indefinite problem arising from mesh tying/contact using
>> Lagrange multiplier, the matrix has the form
>>
>> K = [A P^T
>> P 0]
>>
>> I used the FIELDSPLIT preconditioner with one field is the main variable
>> (displacement) and the other field for dual variable (Lagrange multiplier).
>> The block size for each field is 3. According to the manual, I first chose
>> the preconditioner based on Schur complement to treat this problem.
>>
>
>
> For any solver question, please send us the output of
>
> -ksp_view -ksp_monitor_true_residual -ksp_converged_reason
>
>
> However, I will comment below
>
>
>> The parameters used for the solve is
>> -ksp_type gmres
>>
>
> You need 'fgmres' here with the options you have below.
>
>
>> -ksp_max_it 300
>> -ksp_gmres_restart 300
>> -ksp_gmres_modifiedgramschmidt
>> -pc_fieldsplit_type schur
>> -pc_fieldsplit_schur_fact_type diag
>> -pc_fieldsplit_schur_precondition selfp
>>
>
>
> It could be taking time in the MatMatMult() here if that matrix is dense.
> Is there any reason to
> believe that is a good preconditioner for your problem?
>
>
>
>> -pc_fieldsplit_detect_saddle_point
>> -fieldsplit_u_pc_type hypre
>>
>
> I would just use MUMPS here to start, especially if it works on the whole
> problem. Same with the one below.
>
> Matt
>
>
>> -fieldsplit_u_pc_hypre_type boomeramg
>> -fieldsplit_u_pc_hypre_boomeramg_coarsen_type PMIS
>> -fieldsplit_lu_pc_type hypre
>> -fieldsplit_lu_pc_hypre_type boomeramg
>> -fieldsplit_lu_pc_hypre_boomeramg_coarsen_type PMIS
>>
>> For the test case, a small problem is solved on 2 processes. Due to the
>> decomposition, the contact only happens in 1 proc, so the size of Lagrange
>> multiplier dofs on proc 0 is 0.
>>
>> 0: mIndexU.size(): 80490
>> 0: mIndexLU.size(): 0
>> 1: mIndexU.size(): 103836
>> 1: mIndexLU.size(): 2583
>>
>> However, with this setup the solver takes very long at KSPSolve before
>> going to iteration, and the first iteration seems forever so I have to stop
>> the calculation. I guessed that the solver takes time to compute the Schur
>> complement, but according to the manual only the diagonal of A is used to
>> approximate the Schur complement, so it should not take long to compute
>> this.
>>
>> Note that I ran the same problem with direct solver (MUMPS) and it's able
>> to produce the valid results. The parameter for the solve is pretty standard
>> -ksp_type preonly
>> -pc_type lu
>> -pc_factor_mat_solver_package mumps
>>
>> Hence the matrix/rhs must not have any problem here. Do you have any idea
>> or suggestion for this case?
>>
>>
>> Giang
>>
>
>
>
> --
> What most experimenters take for granted before they begin their
> experiments is infinitely more interesting than any results to which their
> experiments lead.
> -- Norbert Wiener
>
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