NUTILS 8.1 "Idiyappam"
arguments
L=508
R=2540
t=12.7
α=0.1
E=3102.75
ν=0.3
P=-3000
nelems=10
degree=3
nincs=31
dL=0.1
psi=0.0004
start 2023-08-15 02:16:54
NutilsDeprecationWarning: function.inverse is deprecated; use numpy.linalg.inv instead In /usr/local/lib/python3.11/dist-packages/nutils/function.py:1226
optimize
constrained 64/507 dofs
optimum value 0.00e+00
increment 1/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 7e-02 using arnoldi solver
constructing direct preconditioner
peak memory use 3,113k
residual decreased by 9.5 orders using 0 krylov vectors
solver returned with residual 2e-08
estimated residual minimum at 98% of update vector
update accepted at relaxation 1.0
iter 2 (10%)
solve
solving 470 dof system to tolerance 8e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.8 orders using 0 krylov vectors
solver returned with residual 1e-10
estimated residual minimum at 102% of update vector
update accepted at relaxation 0.98031
iter 3 (27%)
solve
solving 470 dof system to tolerance 2e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.2 orders using 0 krylov vectors
solver returned with residual 1e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (68%)
solve
solving 470 dof system to tolerance 1e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.6 orders using 0 krylov vectors
solver returned with residual 4e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.2e-10
Load factor: 0.10, displacement: 0.74
MatplotlibDeprecationWarning: Unable to determine Axes to steal space for Colorbar. Using gca(), but will raise in the future. Either provide the *cax* argument to use as the Axes for the Colorbar, provide the *ax* argument to steal space from it, or add *mappable* to an Axes. In /app/KL-shell.py:223
increment 2/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 5e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.6 orders using 0 krylov vectors
solver returned with residual 1e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (38%)
solve
solving 470 dof system to tolerance 4e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.4 orders using 0 krylov vectors
solver returned with residual 2e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (84%)
solve
solving 470 dof system to tolerance 5e-10 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.1 orders using 0 krylov vectors
solver returned with residual 5e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
converged in 3 iterations to residual 1.8e-10
Load factor: 0.19, displacement: 1.53
increment 3/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 5e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.8 orders using 0 krylov vectors
solver returned with residual 9e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (37%)
solve
solving 470 dof system to tolerance 6e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.1 orders using 0 krylov vectors
solver returned with residual 5e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (79%)
solve
solving 470 dof system to tolerance 2e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.7 orders using 0 krylov vectors
solver returned with residual 3e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.0e-10
Load factor: 0.28, displacement: 2.38
increment 4/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 5e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.3 orders using 0 krylov vectors
solver returned with residual 3e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (35%)
solve
solving 470 dof system to tolerance 9e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.9 orders using 0 krylov vectors
solver returned with residual 1e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (74%)
solve
solving 470 dof system to tolerance 6e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.0 orders using 0 krylov vectors
solver returned with residual 7e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 1.9e-10
Load factor: 0.37, displacement: 3.31
increment 5/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 6e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.4 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (34%)
solve
solving 470 dof system to tolerance 1e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 1e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (68%)
solve
solving 470 dof system to tolerance 3e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.7 orders using 0 krylov vectors
solver returned with residual 6e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.0e-10
Load factor: 0.46, displacement: 4.32
increment 6/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 6e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.9 orders using 0 krylov vectors
solver returned with residual 8e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (31%)
solve
solving 470 dof system to tolerance 2e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.6 orders using 0 krylov vectors
solver returned with residual 6e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (62%)
solve
solving 470 dof system to tolerance 1e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.1 orders using 0 krylov vectors
solver returned with residual 9e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 6.7e-10
Load factor: 0.55, displacement: 5.45
increment 7/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 6e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.9 orders using 0 krylov vectors
solver returned with residual 8e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (29%)
solve
solving 470 dof system to tolerance 4e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.6 orders using 0 krylov vectors
solver returned with residual 1e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (55%)
solve
solving 470 dof system to tolerance 8e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.8 orders using 0 krylov vectors
solver returned with residual 1e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (99%)
solve
solving 470 dof system to tolerance 1e-11 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.9 orders using 0 krylov vectors
solver returned with residual 2e-17
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 1.9e-10
Load factor: 0.63, displacement: 6.71
increment 8/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 6e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.5 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (26%)
solve
solving 470 dof system to tolerance 9e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 4e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (47%)
solve
solving 470 dof system to tolerance 6e-06 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 4e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (85%)
solve
solving 470 dof system to tolerance 5e-10 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.1 orders using 0 krylov vectors
solver returned with residual 4e-16
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.0e-10
Load factor: 0.69, displacement: 8.13
increment 9/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 6e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.2 orders using 0 krylov vectors
solver returned with residual 4e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (23%)
solve
solving 470 dof system to tolerance 2e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.0 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 101% of update vector
update accepted at relaxation 1
iter 3 (38%)
solve
solving 470 dof system to tolerance 5e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 3e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (70%)
solve
solving 470 dof system to tolerance 2e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.0 orders using 0 krylov vectors
solver returned with residual 2e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.1e-10
Load factor: 0.73, displacement: 9.68
increment 10/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 6e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.3 orders using 0 krylov vectors
solver returned with residual 3e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (20%)
solve
solving 470 dof system to tolerance 4e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 102% of update vector
update accepted at relaxation 1
iter 3 (32%)
solve
solving 470 dof system to tolerance 2e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.8 orders using 0 krylov vectors
solver returned with residual 4e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (58%)
solve
solving 470 dof system to tolerance 3e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.5 orders using 0 krylov vectors
solver returned with residual 1e-13
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 7.2e-10
Load factor: 0.74, displacement: 11.19
increment 11/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 5e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.1 orders using 0 krylov vectors
solver returned with residual 4e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (20%)
solve
solving 470 dof system to tolerance 4e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.5 orders using 0 krylov vectors
solver returned with residual 1e-09
estimated residual minimum at 101% of update vector
update accepted at relaxation 0.99999
iter 3 (32%)
solve
solving 470 dof system to tolerance 2e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.6 orders using 0 krylov vectors
solver returned with residual 5e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (59%)
solve
solving 470 dof system to tolerance 2e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 9e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 3.8e-10
Load factor: 0.71, displacement: 12.45
increment 12/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.6 orders using 0 krylov vectors
solver returned with residual 9e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (21%)
solve
solving 470 dof system to tolerance 2e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 9e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (38%)
solve
solving 470 dof system to tolerance 4e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.7 orders using 0 krylov vectors
solver returned with residual 7e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (72%)
solve
solving 470 dof system to tolerance 1e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 7e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.0e-10
Load factor: 0.66, displacement: 13.43
increment 13/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 3e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.7 orders using 0 krylov vectors
solver returned with residual 7e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (24%)
solve
solving 470 dof system to tolerance 9e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 3e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (47%)
solve
solving 470 dof system to tolerance 4e-06 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.3 orders using 0 krylov vectors
solver returned with residual 2e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (88%)
solve
solving 470 dof system to tolerance 2e-10 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.5 orders using 0 krylov vectors
solver returned with residual 6e-17
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.0e-10
Load factor: 0.60, displacement: 14.20
increment 14/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 3e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.3 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (28%)
solve
solving 470 dof system to tolerance 4e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.1 orders using 0 krylov vectors
solver returned with residual 4e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (56%)
solve
solving 470 dof system to tolerance 4e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 3e-13
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.2e-09
Load factor: 0.54, displacement: 14.84
increment 15/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.2 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (32%)
solve
solving 470 dof system to tolerance 1e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.7 orders using 0 krylov vectors
solver returned with residual 3e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (67%)
solve
solving 470 dof system to tolerance 3e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.7 orders using 0 krylov vectors
solver returned with residual 6e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 0.99997
converged in 3 iterations to residual 1.0e-09
Load factor: 0.47, displacement: 15.40
increment 16/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.5 orders using 0 krylov vectors
solver returned with residual 1e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (37%)
solve
solving 470 dof system to tolerance 4e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.6 orders using 0 krylov vectors
solver returned with residual 1e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (75%)
solve
solving 470 dof system to tolerance 4e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.5 orders using 0 krylov vectors
solver returned with residual 1e-16
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.0e-10
Load factor: 0.40, displacement: 15.93
increment 17/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.7 orders using 0 krylov vectors
solver returned with residual 8e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (37%)
solve
solving 470 dof system to tolerance 4e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.9 orders using 0 krylov vectors
solver returned with residual 5e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (73%)
solve
solving 470 dof system to tolerance 7e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.7 orders using 0 krylov vectors
solver returned with residual 1e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 0.99999
converged in 3 iterations to residual 2.1e-10
Load factor: 0.33, displacement: 16.49
increment 18/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.3 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (32%)
solve
solving 470 dof system to tolerance 2e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.9 orders using 0 krylov vectors
solver returned with residual 2e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (59%)
solve
solving 470 dof system to tolerance 2e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.9 orders using 0 krylov vectors
solver returned with residual 3e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.9e-10
Load factor: 0.26, displacement: 17.12
increment 19/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 3e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.0 orders using 0 krylov vectors
solver returned with residual 3e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (27%)
solve
solving 470 dof system to tolerance 5e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.7 orders using 0 krylov vectors
solver returned with residual 9e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (48%)
solve
solving 470 dof system to tolerance 3e-06 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.9 orders using 0 krylov vectors
solver returned with residual 4e-13
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (94%)
solve
solving 470 dof system to tolerance 5e-11 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.8 orders using 0 krylov vectors
solver returned with residual 7e-18
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.1e-10
Load factor: 0.21, displacement: 17.91
increment 20/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 3e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.5 orders using 0 krylov vectors
solver returned with residual 9e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (22%)
solve
solving 470 dof system to tolerance 1e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.9 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 101% of update vector
update accepted at relaxation 1
iter 3 (37%)
solve
solving 470 dof system to tolerance 4e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 2e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (71%)
solve
solving 470 dof system to tolerance 1e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.7 orders using 0 krylov vectors
solver returned with residual 2e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.0e-10
Load factor: 0.17, displacement: 18.97
increment 21/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 3e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.6 orders using 0 krylov vectors
solver returned with residual 7e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (18%)
solve
solving 470 dof system to tolerance 3e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.1 orders using 0 krylov vectors
solver returned with residual 3e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (27%)
solve
solving 470 dof system to tolerance 4e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.5 orders using 0 krylov vectors
solver returned with residual 1e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 0.99978
iter 4 (51%)
solve
solving 470 dof system to tolerance 1e-06 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 6e-13
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 9.7e-09
Load factor: 0.18, displacement: 20.32
increment 22/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 3e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 10.9 orders using 0 krylov vectors
solver returned with residual 4e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (19%)
solve
solving 470 dof system to tolerance 4e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 98% of update vector
update accepted at relaxation 1
iter 3 (28%)
solve
solving 470 dof system to tolerance 4e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.0 orders using 0 krylov vectors
solver returned with residual 4e-10
estimated residual minimum at 102% of update vector
update accepted at relaxation 0.98159
iter 4 (43%)
solve
solving 470 dof system to tolerance 1e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 4e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 5 (80%)
solve
solving 470 dof system to tolerance 1e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.1 orders using 0 krylov vectors
solver returned with residual 9e-16
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 5 iterations to residual 2.2e-10
Load factor: 0.23, displacement: 21.69
increment 23/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.0 orders using 0 krylov vectors
solver returned with residual 4e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (22%)
solve
solving 470 dof system to tolerance 2e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.1 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 102% of update vector
update accepted at relaxation 1
iter 3 (37%)
solve
solving 470 dof system to tolerance 6e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.8 orders using 0 krylov vectors
solver returned with residual 8e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (66%)
solve
solving 470 dof system to tolerance 4e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.3 orders using 0 krylov vectors
solver returned with residual 2e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.3e-10
Load factor: 0.30, displacement: 22.89
increment 24/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 5e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.2 orders using 0 krylov vectors
solver returned with residual 3e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (25%)
solve
solving 470 dof system to tolerance 1e-03 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 4e-10
estimated residual minimum at 101% of update vector
update accepted at relaxation 1
iter 3 (46%)
solve
solving 470 dof system to tolerance 6e-06 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.0 orders using 0 krylov vectors
solver returned with residual 6e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 4 (86%)
solve
solving 470 dof system to tolerance 3e-10 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 2e-16
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 4 iterations to residual 2.1e-10
Load factor: 0.38, displacement: 23.93
increment 25/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 5e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.5 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (29%)
solve
solving 470 dof system to tolerance 4e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 2e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (54%)
solve
solving 470 dof system to tolerance 8e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 5e-13
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 4.5e-09
Load factor: 0.47, displacement: 24.85
increment 26/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 5e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.4 orders using 0 krylov vectors
solver returned with residual 2e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (32%)
solve
solving 470 dof system to tolerance 2e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.4 orders using 0 krylov vectors
solver returned with residual 8e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (61%)
solve
solving 470 dof system to tolerance 1e-07 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 8e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.6e-10
Load factor: 0.56, displacement: 25.67
increment 27/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.5 orders using 0 krylov vectors
solver returned with residual 1e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (34%)
solve
solving 470 dof system to tolerance 1e-04 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.3 orders using 0 krylov vectors
solver returned with residual 5e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (67%)
solve
solving 470 dof system to tolerance 3e-08 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 2e-14
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.4e-10
Load factor: 0.65, displacement: 26.42
increment 28/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.5 orders using 0 krylov vectors
solver returned with residual 1e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (36%)
solve
solving 470 dof system to tolerance 6e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 3e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (72%)
solve
solving 470 dof system to tolerance 9e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.0 orders using 0 krylov vectors
solver returned with residual 9e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.5e-10
Load factor: 0.75, displacement: 27.11
increment 29/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.9 orders using 0 krylov vectors
solver returned with residual 5e-10
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (38%)
solve
solving 470 dof system to tolerance 4e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 2e-11
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (76%)
solve
solving 470 dof system to tolerance 3e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 8.9 orders using 0 krylov vectors
solver returned with residual 4e-15
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.5e-10
Load factor: 0.84, displacement: 27.76
increment 30/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.5 orders using 0 krylov vectors
solver returned with residual 1e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (40%)
solve
solving 470 dof system to tolerance 2e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.8 orders using 0 krylov vectors
solver returned with residual 4e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (80%)
solve
solving 470 dof system to tolerance 1e-09 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.2 orders using 0 krylov vectors
solver returned with residual 8e-16
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.3e-10
Load factor: 0.94, displacement: 28.36
increment 31/31
newton
iter 1 (0%)
solve
solving 470 dof system to tolerance 4e-01 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 11.6 orders using 0 krylov vectors
solver returned with residual 1e-09
estimated residual minimum at 100% of update vector
update accepted at relaxation 1.0
iter 2 (41%)
solve
solving 470 dof system to tolerance 2e-05 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.9 orders using 0 krylov vectors
solver returned with residual 2e-12
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
iter 3 (84%)
solve
solving 470 dof system to tolerance 5e-10 using arnoldi solver
constructing direct preconditioner
peak memory use 3,140k
residual decreased by 9.5 orders using 0 krylov vectors
solver returned with residual 2e-16
estimated residual minimum at 100% of update vector
update accepted at relaxation 1
converged in 3 iterations to residual 2.3e-10
Load factor: 1.04, displacement: 28.94
load_path.dat
finish 2023-08-15 02:37:17, elapsed 20:23