xref: /petsc/src/ts/tutorials/advection-diffusion-reaction/output/ex3_1.out (revision ccb4e88a40f0b86eaeca07ff64c64e4de2fae686) 
10 TS dt 8.33333e-06 time 0.
21 TS dt 8.33333e-05 time 8.33333e-06
32 TS dt 0.000833333 time 9.16667e-05
43 TS dt 0.00833333 time 0.000925
54 TS dt 0.0132237 time 0.00925833
65 TS dt 0.0132566 time 0.022482
76 TS dt 0.0132919 time 0.0357387
87 TS dt 0.0133226 time 0.0490305
98 TS dt 0.0133482 time 0.0623531
109 TS dt 0.0133897 time 0.0757014
1110 TS dt 0.0134319 time 0.0890911
1211 TS dt 0.0134682 time 0.102523
1312 TS dt 0.0134977 time 0.115991
1413 TS dt 0.0135237 time 0.129489
1514 TS dt 0.00491431 time 0.133773
1615 TS dt 0.0100893 time 0.138687
1716 TS dt 0.0135711 time 0.148777
1817 TS dt 0.0136066 time 0.162348
1918 TS dt 0.00442413 time 0.165974
2019 TS dt 0.00848341 time 0.170398
2120 TS dt 0.0135303 time 0.178881
2221 TS dt 0.0136941 time 0.192411
2322 TS dt 0.0053962 time 0.197183
2423 TS dt 0.010941 time 0.20258
2524 TS dt 0.0137452 time 0.213521
2625 TS dt 0.0137594 time 0.227266
2726 TS dt 0.0035759 time 0.229752
2827 TS dt 0.00563902 time 0.233328
2928 TS dt 0.0108807 time 0.238967
3029 TS dt 0.0138263 time 0.249848
3130 TS dt 0.0138145 time 0.263674
3231 TS dt 0.00325521 time 0.2658
3332 TS dt 0.00480587 time 0.269055
3433 TS dt 0.0087816 time 0.273861
3534 TS dt 0.0138188 time 0.282642
3635 TS dt 0.0139722 time 0.296461
3736 TS dt 0.00473778 time 0.300051
38TS Object: 1 MPI processes
39  type: arkimex
40    ARK IMEX 3
41    Stiff abscissa       ct =  0.000000  0.871733  0.600000  1.000000
42  Fully implicit: no
43  Stiffly accurate: yes
44  Explicit first stage: yes
45  FSAL property: yes
46    Nonstiff abscissa     c =  0.000000  0.871733  0.600000  1.000000
47  maximum steps=1000
48  maximum time=0.3
49  using relative error tolerance of 0.0001,   using absolute error tolerance of 0.0001
50  TSAdapt Object: 1 MPI processes
51    type: basic
52    safety factor 0.9
53    extra safety factor after step rejection 0.5
54    clip fastest increase 10.
55    clip fastest decrease 0.1
56    maximum allowed timestep 1e+20
57    minimum allowed timestep 1e-20
58    maximum solution absolute value to be ignored -1.
59  SNES Object: 1 MPI processes
60    type: newtonls
61    maximum iterations=50, maximum function evaluations=10000
62    tolerances: relative=1e-08, absolute=1e-50, solution=1e-08
63    norm schedule ALWAYS
64    SNESLineSearch Object: 1 MPI processes
65      type: bt
66        interpolation: cubic
67        alpha=1.000000e-04
68      maxstep=1.000000e+08, minlambda=1.000000e-12
69      tolerances: relative=1.000000e-08, absolute=1.000000e-15, lambda=1.000000e-08
70      maximum iterations=40
71    KSP Object: 1 MPI processes
72      type: gmres
73        restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement
74        happy breakdown tolerance 1e-30
75      maximum iterations=10000, initial guess is zero
76      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
77      left preconditioning
78      using PRECONDITIONED norm type for convergence test
79    PC Object: 1 MPI processes
80      type: mg
81        type is MULTIPLICATIVE, levels=3 cycles=v
82          Cycles per PCApply=1
83          Not using Galerkin computed coarse grid matrices
84      Coarse grid solver -- level -------------------------------
85        KSP Object: (mg_coarse_) 1 MPI processes
86          type: preonly
87          maximum iterations=10000, initial guess is zero
88          tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
89          left preconditioning
90          using NONE norm type for convergence test
91        PC Object: (mg_coarse_) 1 MPI processes
92          type: lu
93            out-of-place factorization
94            tolerance for zero pivot 2.22045e-14
95            using diagonal shift on blocks to prevent zero pivot [INBLOCKS]
96            matrix ordering: nd
97            factor fill ratio given 5., needed 1.63333
98              Factored matrix follows:
99                Mat Object: 1 MPI processes
100                  type: seqaij
101                  rows=60, cols=60
102                  package used to perform factorization: petsc
103                  total: nonzeros=294, allocated nonzeros=294
104                    not using I-node routines
105          linear system matrix = precond matrix:
106          Mat Object: 1 MPI processes
107            type: seqaij
108            rows=60, cols=60
109            total: nonzeros=180, allocated nonzeros=180
110              not using I-node routines
111      Down solver (pre-smoother) on level 1 -------------------------------
112        KSP Object: (mg_levels_1_) 1 MPI processes
113          type: chebyshev
114            eigenvalue estimates used:  min = 0.1, max = 1.1
115            eigenvalues estimate via gmres min 1., max 1.
116            eigenvalues estimated using gmres with translations  [0. 0.1; 0. 1.1]
117            KSP Object: (mg_levels_1_esteig_) 1 MPI processes
118              type: gmres
119                restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement
120                happy breakdown tolerance 1e-30
121              maximum iterations=10, initial guess is zero
122              tolerances:  relative=1e-12, absolute=1e-50, divergence=10000.
123              left preconditioning
124              using PRECONDITIONED norm type for convergence test
125            estimating eigenvalues using noisy right hand side
126          maximum iterations=3, nonzero initial guess
127          tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
128          left preconditioning
129          using NONE norm type for convergence test
130        PC Object: (mg_levels_1_) 1 MPI processes
131          type: sor
132            type = local_symmetric, iterations = 1, local iterations = 1, omega = 1.
133          linear system matrix = precond matrix:
134          Mat Object: 1 MPI processes
135            type: seqaij
136            rows=120, cols=120
137            total: nonzeros=360, allocated nonzeros=360
138              not using I-node routines
139      Up solver (post-smoother) same as down solver (pre-smoother)
140      Down solver (pre-smoother) on level 2 -------------------------------
141        KSP Object: (mg_levels_2_) 1 MPI processes
142          type: chebyshev
143            eigenvalue estimates used:  min = 0.1, max = 1.1
144            eigenvalues estimate via gmres min 1., max 1.
145            eigenvalues estimated using gmres with translations  [0. 0.1; 0. 1.1]
146            KSP Object: (mg_levels_2_esteig_) 1 MPI processes
147              type: gmres
148                restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement
149                happy breakdown tolerance 1e-30
150              maximum iterations=10, initial guess is zero
151              tolerances:  relative=1e-12, absolute=1e-50, divergence=10000.
152              left preconditioning
153              using PRECONDITIONED norm type for convergence test
154            estimating eigenvalues using noisy right hand side
155          maximum iterations=3, nonzero initial guess
156          tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
157          left preconditioning
158          using NONE norm type for convergence test
159        PC Object: (mg_levels_2_) 1 MPI processes
160          type: sor
161            type = local_symmetric, iterations = 1, local iterations = 1, omega = 1.
162          linear system matrix = precond matrix:
163          Mat Object: 1 MPI processes
164            type: seqaij
165            rows=240, cols=240
166            total: nonzeros=720, allocated nonzeros=720
167              not using I-node routines
168      Up solver (post-smoother) same as down solver (pre-smoother)
169      linear system matrix = precond matrix:
170      Mat Object: 1 MPI processes
171        type: seqaij
172        rows=240, cols=240
173        total: nonzeros=720, allocated nonzeros=720
174          not using I-node routines
175