factor
analysing function of φ
constructing sparse polynomial C1 + C2 φ^2 + C3 φ^4
monomial 1/3
1 coefficients for scalar array (100.0% full)
monomial 2/3
90,601 coefficients for (10201, 10201) array (0.1% full)
monomial 3/3
2,253,001 coefficients for (10201, 10201, 10201, 10201) array (0.0% full)
factored function contains 2,343,603 coefficients (17MB)
factor
analysing function of φ
constructing sparse polynomial C1 φ^2
monomial 1/1
90,601 coefficients for (10201, 10201) array (0.1% full)
factored function contains 90,601 coefficients (0MB)
factor
analysing function of φ
constructing sparse polynomial C1 + C2 φ
monomial 1/2
1 coefficients for scalar array (100.0% full)
monomial 2/2
400 coefficients for (10201,) array (3.9% full)
factored function contains 401 coefficients (0MB)
factor
analysing function of η, φ, dt, φ0
constructing sparse polynomial C1 η φ + C2 η φ0 + C3 dt η^2
monomial 1/3
90,601 coefficients for (10201, 10201) array (0.1% full)
monomial 2/3
90,601 coefficients for (10201, 10201) array (0.1% full)
monomial 3/3
90,601 coefficients for (10201, 10201) array (0.1% full)
factored function contains 271,803 coefficients (2MB)
factor
analysing function of φ
constructing sparse polynomial C1 φ
monomial 1/1
640,000 coefficients for (250000, 10201) array (0.0% full)
factored function contains 640,000 coefficients (4MB)
factor
analysing function of φ, η
constructing sparse polynomial C1 η φ
monomial 1/1
46,528 coefficients for (array(1454), 2, 10201, 10201) array (0.0% full)
factored function contains 46,528 coefficients (0MB)
timestep 1/600
energy: 300,322μJ/m (27% mixture, 71% interface, 3% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.4 orders using 0 krylov vectors
solver returned with residual 6e-09
residual norm: 1.1e+06 (15%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 1e-08
residual norm: 3.4e+05 (22%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 7e-10
residual norm: 7.8e+04 (31%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 1.5e+04 (42%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 2.6e+03 (52%)
error: failed to converge in 5 iterations; retrying with timestep 0.5
retry 1/2
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.6 orders using 0 krylov vectors
solver returned with residual 4e-09
residual norm: 4.0e+05 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-10
residual norm: 1.8e+04 (40%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 3.1e+02 (65%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.6e-01 (100%)
optimal value: 1.0e+08
retry 2/2
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-09
residual norm: 1.1e+05 (15%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 6.8e+03 (36%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 5.1e+01 (71%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 7.3e-03 (100%)
optimal value: 1.0e+08
largest flux: 3.40mm/s
timestep 2/600
energy: 97,111μJ/m (84% mixture, 8% interface, 8% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 12.4 orders using 0 krylov vectors
solver returned with residual 4e-07
residual norm: 7.6e+09 (-66%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.6 orders using 0 krylov vectors
solver returned with residual 2e-06
residual norm: 2.2e+09 (-57%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.6 orders using 0 krylov vectors
solver returned with residual 6e-07
residual norm: 6.6e+08 (-48%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.7 orders using 0 krylov vectors
solver returned with residual 1e-07
residual norm: 2.0e+08 (-39%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.7 orders using 0 krylov vectors
solver returned with residual 4e-08
residual norm: 5.8e+07 (-30%)
error: failed to converge in 5 iterations; retrying with timestep 0.5
retry 1/2
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 8e-10
residual norm: 1.2e+05 (10%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 5.4e+03 (34%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.1e+01 (77%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 5.9e-04 (100%)
optimal value: 9.4e+07
retry 2/2
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-10
residual norm: 9.2e+04 (12%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 3.6e+03 (37%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 1.8e+01 (78%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 1.2e-03 (100%)
optimal value: 9.0e+07
largest flux: 3.57mm/s
timestep 3/600
energy: 87,591μJ/m (71% mixture, 21% interface, 8% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.4 orders using 0 krylov vectors
solver returned with residual 3e-08
residual norm: 5.3e+05 (3%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-10
residual norm: 1.2e+05 (14%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 2.0e+04 (27%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.9e+03 (44%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 2.9e+01 (75%)
error: failed to converge in 5 iterations; retrying with timestep 0.5
retry 1/2
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-10
residual norm: 6.5e+04 (14%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 2.5e+03 (39%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 1.3e+01 (80%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-14
residual norm: 6.6e-04 (100%)
optimal value: 8.6e+07
retry 2/2
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 4.1e+04 (16%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 8.0e+02 (47%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 9.0e-01 (100%)
optimal value: 8.3e+07
largest flux: 3.97mm/s
timestep 4/600
energy: 82,354μJ/m (62% mixture, 29% interface, 8% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 9e-10
residual norm: 2.1e+05 (7%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 3.4e+04 (20%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 3.4e+03 (38%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 7e-12
residual norm: 6.3e+01 (68%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.7e-02 (100%)
optimal value: 8.1e+07
largest flux: 4.45mm/s
timestep 5/600
energy: 79,020μJ/m (58% mixture, 33% interface, 9% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-10
residual norm: 1.3e+05 (9%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.4e+04 (26%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 6.3e+02 (50%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.3e+00 (94%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 8e-15
residual norm: 4.0e-05 (100%)
optimal value: 7.8e+07
largest flux: 3.59mm/s
timestep 6/600
energy: 76,388μJ/m (56% mixture, 35% interface, 9% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-10
residual norm: 8.8e+04 (11%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 8.9e+03 (29%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 3.8e+02 (54%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e+00 (98%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-15
residual norm: 2.0e-05 (100%)
optimal value: 7.5e+07
largest flux: 2.93mm/s
timestep 7/600
energy: 74,240μJ/m (54% mixture, 36% interface, 9% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-10
residual norm: 7.0e+04 (12%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 5.6e+03 (32%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.5e+02 (61%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.4e-01 (100%)
optimal value: 7.3e+07
largest flux: 3.38mm/s
timestep 8/600
energy: 72,301μJ/m (53% mixture, 37% interface, 10% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-10
residual norm: 8.5e+04 (11%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 8.2e+03 (29%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.5e+02 (56%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 3.5e-01 (100%)
optimal value: 7.1e+07
largest flux: 4.05mm/s
timestep 9/600
energy: 70,413μJ/m (52% mixture, 38% interface, 10% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-10
residual norm: 1.1e+05 (9%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 1.5e+04 (24%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 8.6e+02 (47%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 4.0e+00 (89%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-15
residual norm: 9.6e-05 (100%)
optimal value: 7.0e+07
largest flux: 3.46mm/s
timestep 10/600
energy: 68,691μJ/m (51% mixture, 38% interface, 10% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 5.9e+04 (13%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 3.3e+03 (36%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 2.8e+01 (73%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 3.1e-03 (100%)
optimal value: 6.8e+07
largest flux: 3.34mm/s
timestep 11/600
energy: 67,195μJ/m (51% mixture, 39% interface, 10% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 5.5e+04 (13%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 3.6e+03 (34%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 4.7e+01 (69%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-14
residual norm: 1.1e-02 (100%)
optimal value: 6.7e+07
largest flux: 3.38mm/s
timestep 12/600
energy: 65,865μJ/m (50% mixture, 39% interface, 11% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 5.1e+04 (13%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 3.0e+03 (36%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 2.7e+01 (73%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 3.0e-03 (100%)
optimal value: 6.5e+07
largest flux: 3.19mm/s
timestep 13/600
energy: 64,651μJ/m (50% mixture, 39% interface, 11% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 6.2e+04 (11%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 7.7e+03 (28%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.3e+02 (53%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 7.5e-01 (100%)
optimal value: 6.4e+07
largest flux: 3.47mm/s
timestep 14/600
energy: 63,555μJ/m (49% mixture, 40% interface, 11% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 3.2e+04 (16%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.1e+03 (43%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 4.1e+00 (88%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 1.6e-04 (100%)
optimal value: 6.3e+07
largest flux: 2.77mm/s
timestep 15/600
energy: 62,583μJ/m (49% mixture, 40% interface, 11% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 3.1e+04 (15%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 2.5e+03 (36%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 4.8e+01 (68%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 1.9e-02 (100%)
optimal value: 6.2e+07
largest flux: 2.68mm/s
timestep 16/600
energy: 61,700μJ/m (48% mixture, 40% interface, 11% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 2.4e+04 (17%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 9.4e+02 (44%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 7e-12
residual norm: 6.3e+00 (85%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 6e-14
residual norm: 5.2e-04 (100%)
optimal value: 6.1e+07
largest flux: 2.83mm/s
timestep 17/600
energy: 60,886μJ/m (48% mixture, 40% interface, 12% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 2.2e+04 (17%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 1.1e+03 (42%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 9.7e+00 (81%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 7.6e-04 (100%)
optimal value: 6.1e+07
largest flux: 2.75mm/s
timestep 18/600
energy: 60,147μJ/m (48% mixture, 40% interface, 12% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.5e+04 (20%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 2.4e+02 (54%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.6e-01 (100%)
optimal value: 6.0e+07
largest flux: 2.30mm/s
timestep 19/600
energy: 59,479μJ/m (48% mixture, 40% interface, 12% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.3e+04 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (60%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 5.6e-02 (100%)
optimal value: 5.9e+07
largest flux: 1.94mm/s
timestep 20/600
energy: 58,865μJ/m (47% mixture, 40% interface, 12% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.2e+04 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 8.7e+01 (62%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 1.7e-02 (100%)
optimal value: 5.9e+07
largest flux: 2.00mm/s
timestep 21/600
energy: 58,287μJ/m (47% mixture, 40% interface, 12% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.1e+04 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 7.1e+01 (64%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 9e-14
residual norm: 7.6e-03 (100%)
optimal value: 5.8e+07
largest flux: 2.05mm/s
timestep 22/600
energy: 57,734μJ/m (47% mixture, 40% interface, 12% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.1e+04 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 6.7e+01 (64%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 8e-14
residual norm: 5.2e-03 (100%)
optimal value: 5.7e+07
largest flux: 2.10mm/s
timestep 23/600
energy: 57,198μJ/m (47% mixture, 40% interface, 12% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 1.1e+04 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 7.7e+01 (63%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 9e-14
residual norm: 9.8e-03 (100%)
optimal value: 5.7e+07
largest flux: 2.19mm/s
timestep 24/600
energy: 56,668μJ/m (47% mixture, 40% interface, 13% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.2e+04 (20%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (59%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 7.1e-02 (100%)
optimal value: 5.6e+07
largest flux: 2.45mm/s
timestep 25/600
energy: 56,134μJ/m (47% mixture, 40% interface, 13% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.4e+04 (19%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.7e+02 (48%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 1.9e+00 (94%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-15
residual norm: 3.3e-05 (100%)
optimal value: 5.6e+07
largest flux: 2.80mm/s
timestep 26/600
energy: 55,577μJ/m (47% mixture, 40% interface, 13% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 2.3e+04 (15%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 2.4e+03 (34%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.1e+01 (74%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 8e-14
residual norm: 8.0e-04 (100%)
optimal value: 5.5e+07
largest flux: 4.52mm/s
timestep 27/600
energy: 54,913μJ/m (47% mixture, 40% interface, 13% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 2.6e+05 (-4%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 6.2e+04 (8%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 1.0e+04 (23%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.4e+02 (49%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.0e+00 (100%)
optimal value: 5.5e+07
largest flux: 4.56mm/s
timestep 28/600
energy: 54,208μJ/m (47% mixture, 40% interface, 13% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 2.9e+04 (14%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+03 (40%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 4.4e+00 (88%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 5.5e-05 (100%)
optimal value: 5.4e+07
largest flux: 2.50mm/s
timestep 29/600
energy: 53,677μJ/m (46% mixture, 40% interface, 13% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.0e+04 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 8.9e+01 (62%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.8e-02 (100%)
optimal value: 5.3e+07
largest flux: 2.46mm/s
timestep 30/600
energy: 53,236μJ/m (46% mixture, 40% interface, 13% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 9.3e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 8.4e+01 (62%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.7e-02 (100%)
optimal value: 5.3e+07
largest flux: 2.53mm/s
timestep 31/600
energy: 52,827μJ/m (46% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 9.2e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (58%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.2e-01 (100%)
optimal value: 5.3e+07
largest flux: 2.44mm/s
timestep 32/600
energy: 52,425μJ/m (46% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.0e+04 (20%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 3.8e+02 (49%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 1.5e+00 (96%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 6e-15
residual norm: 1.3e-05 (100%)
optimal value: 5.2e+07
largest flux: 2.98mm/s
timestep 33/600
energy: 52,009μJ/m (46% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 3.6e+04 (9%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 5.7e+03 (25%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.5e+02 (49%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.7e+00 (95%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 7e-15
residual norm: 4.0e-05 (100%)
optimal value: 5.2e+07
largest flux: 3.58mm/s
timestep 34/600
energy: 51,574μJ/m (46% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.7e+04 (16%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.0e+03 (40%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 7.4e+00 (83%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 4.0e-04 (100%)
optimal value: 5.1e+07
largest flux: 2.44mm/s
timestep 35/600
energy: 51,185μJ/m (46% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 7.7e+03 (22%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 4.4e+01 (67%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 9e-14
residual norm: 4.2e-03 (100%)
optimal value: 5.1e+07
largest flux: 1.67mm/s
timestep 36/600
energy: 50,837μJ/m (46% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.8e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 3.0e+01 (70%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 1.3e-03 (100%)
optimal value: 5.1e+07
largest flux: 1.65mm/s
timestep 37/600
energy: 50,514μJ/m (45% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.4e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 2.6e+01 (71%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 8.9e-04 (100%)
optimal value: 5.0e+07
largest flux: 1.63mm/s
timestep 38/600
energy: 50,205μJ/m (45% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.2e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 2.3e+01 (72%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 6.5e-04 (100%)
optimal value: 5.0e+07
largest flux: 1.61mm/s
timestep 39/600
energy: 49,906μJ/m (45% mixture, 40% interface, 14% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 5.9e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 8e-12
residual norm: 2.1e+01 (73%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 5.2e-04 (100%)
optimal value: 5.0e+07
largest flux: 1.58mm/s
timestep 40/600
energy: 49,615μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 5.7e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 8e-12
residual norm: 2.0e+01 (74%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 7e-14
residual norm: 7.6e-04 (100%)
optimal value: 4.9e+07
largest flux: 1.53mm/s
timestep 41/600
energy: 49,331μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 5.6e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.2e+01 (73%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 3.3e-03 (100%)
optimal value: 4.9e+07
largest flux: 1.48mm/s
timestep 42/600
energy: 49,051μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 5.7e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.9e+01 (70%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 5.6e-03 (100%)
optimal value: 4.9e+07
largest flux: 1.42mm/s
timestep 43/600
energy: 48,771μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 6.4e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 9.6e+01 (60%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.7e-01 (100%)
optimal value: 4.9e+07
largest flux: 1.76mm/s
timestep 44/600
energy: 48,484μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 9.5e+03 (19%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 6.1e+02 (44%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 8e-12
residual norm: 5.9e+00 (84%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 7e-14
residual norm: 5.6e-04 (100%)
optimal value: 4.8e+07
largest flux: 2.04mm/s
timestep 45/600
energy: 48,193μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 7.5e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (54%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.2e-01 (100%)
optimal value: 4.8e+07
largest flux: 2.08mm/s
timestep 46/600
energy: 47,907μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.4e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.8e+01 (66%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.2e-02 (100%)
optimal value: 4.8e+07
largest flux: 1.94mm/s
timestep 47/600
energy: 47,630μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.0e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.9e+01 (70%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 9e-14
residual norm: 1.6e-03 (100%)
optimal value: 4.7e+07
largest flux: 1.72mm/s
timestep 48/600
energy: 47,360μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 5.9e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 2.7e+01 (71%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 1.4e-03 (100%)
optimal value: 4.7e+07
largest flux: 1.68mm/s
timestep 49/600
energy: 47,098μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 5.9e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 7e-12
residual norm: 3.0e+01 (70%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 1.8e-03 (100%)
optimal value: 4.7e+07
largest flux: 1.76mm/s
timestep 50/600
energy: 46,843μJ/m (45% mixture, 40% interface, 15% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 6.0e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 3.3e+01 (69%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 2.4e-03 (100%)
optimal value: 4.7e+07
largest flux: 1.84mm/s
timestep 51/600
energy: 46,593μJ/m (45% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 6.1e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 3.8e+01 (68%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 3.1e-03 (100%)
optimal value: 4.6e+07
largest flux: 1.90mm/s
timestep 52/600
energy: 46,347μJ/m (45% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 6.3e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 4.3e+01 (67%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 4.0e-03 (100%)
optimal value: 4.6e+07
largest flux: 1.92mm/s
timestep 53/600
energy: 46,106μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 6.6e+03 (22%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 4.9e+01 (66%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 5.0e-03 (100%)
optimal value: 4.6e+07
largest flux: 1.90mm/s
timestep 54/600
energy: 45,868μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 6.8e+03 (22%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 5.5e+01 (65%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 6.2e-03 (100%)
optimal value: 4.6e+07
largest flux: 1.98mm/s
timestep 55/600
energy: 45,634μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 7.1e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 6.0e+01 (64%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 7.3e-03 (100%)
optimal value: 4.6e+07
largest flux: 2.07mm/s
timestep 56/600
energy: 45,403μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 7.3e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 6.4e+01 (63%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 8.2e-03 (100%)
optimal value: 4.5e+07
largest flux: 2.14mm/s
timestep 57/600
energy: 45,175μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 7.4e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 6.7e+01 (63%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-14
residual norm: 8.7e-03 (100%)
optimal value: 4.5e+07
largest flux: 2.19mm/s
timestep 58/600
energy: 44,951μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 7.4e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 6.7e+01 (63%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 8.4e-03 (100%)
optimal value: 4.5e+07
largest flux: 2.21mm/s
timestep 59/600
energy: 44,732μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 7.3e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-12
residual norm: 6.4e+01 (63%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-14
residual norm: 7.5e-03 (100%)
optimal value: 4.5e+07
largest flux: 2.18mm/s
timestep 60/600
energy: 44,518μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 7.0e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 5.7e+01 (64%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 6.1e-03 (100%)
optimal value: 4.4e+07
largest flux: 2.08mm/s
timestep 61/600
energy: 44,310μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 6.5e+03 (22%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 4.9e+01 (65%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 4.4e-03 (100%)
optimal value: 4.4e+07
largest flux: 1.93mm/s
timestep 62/600
energy: 44,107μJ/m (44% mixture, 40% interface, 16% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 6.0e+03 (22%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 4.0e+01 (67%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 4e-14
residual norm: 2.9e-03 (100%)
optimal value: 4.4e+07
largest flux: 1.75mm/s
timestep 63/600
energy: 43,911μJ/m (44% mixture, 40% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 5.5e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 3.1e+01 (69%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 1.7e-03 (100%)
optimal value: 4.4e+07
largest flux: 1.64mm/s
timestep 64/600
energy: 43,721μJ/m (44% mixture, 40% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 5.0e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 2.5e+01 (71%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 1.0e-03 (100%)
optimal value: 4.4e+07
largest flux: 1.51mm/s
timestep 65/600
energy: 43,537μJ/m (44% mixture, 40% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 4.6e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 2.0e+01 (73%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 7.2e-04 (100%)
optimal value: 4.3e+07
largest flux: 1.36mm/s
timestep 66/600
energy: 43,356μJ/m (44% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 4.2e+03 (25%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 1.8e+01 (74%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 9.1e-04 (100%)
optimal value: 4.3e+07
largest flux: 1.46mm/s
timestep 67/600
energy: 43,179μJ/m (44% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 4.1e+03 (25%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 2.5e+01 (71%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 9e-14
residual norm: 6.0e-03 (100%)
optimal value: 4.3e+07
largest flux: 1.66mm/s
timestep 68/600
energy: 43,002μJ/m (44% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 4.3e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 8e-12
residual norm: 8.5e+01 (60%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.4e-01 (100%)
optimal value: 4.3e+07
largest flux: 1.97mm/s
timestep 69/600
energy: 42,822μJ/m (44% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 5.9e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.9e+02 (49%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 7.5e-01 (100%)
optimal value: 4.3e+07
largest flux: 2.63mm/s
timestep 70/600
energy: 42,620μJ/m (44% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 3.0e+04 (7%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 5.1e+03 (23%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.1e+02 (49%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e+00 (97%)
iter 5
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 5e-15
residual norm: 2.8e-05 (100%)
optimal value: 4.3e+07
largest flux: 2.95mm/s
timestep 71/600
energy: 42,388μJ/m (44% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.7e+04 (13%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (37%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 9.9e+00 (80%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 7.1e-04 (100%)
optimal value: 4.2e+07
largest flux: 2.32mm/s
timestep 72/600
energy: 42,182μJ/m (44% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 4.9e+03 (23%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 4.3e+01 (66%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 7.6e-03 (100%)
optimal value: 4.2e+07
largest flux: 1.61mm/s
timestep 73/600
energy: 42,010μJ/m (43% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 3.0e+03 (27%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 7.8e+00 (81%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-14
residual norm: 1.8e-04 (100%)
optimal value: 4.2e+07
largest flux: 1.26mm/s
timestep 74/600
energy: 41,859μJ/m (43% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 2.6e+03 (28%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 6.4e+00 (83%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 9e-15
residual norm: 1.2e-04 (100%)
optimal value: 4.2e+07
largest flux: 1.21mm/s
timestep 75/600
energy: 41,722μJ/m (43% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 2.4e+03 (28%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 5.6e+00 (84%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 7e-15
residual norm: 7.6e-05 (100%)
optimal value: 4.2e+07
largest flux: 1.18mm/s
timestep 76/600
energy: 41,594μJ/m (43% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 2.3e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 4.9e+00 (85%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-15
residual norm: 5.1e-05 (100%)
optimal value: 4.2e+07
largest flux: 1.13mm/s
timestep 77/600
energy: 41,472μJ/m (43% mixture, 39% interface, 17% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.2e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 4.4e+00 (86%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-15
residual norm: 3.8e-05 (100%)
optimal value: 4.1e+07
largest flux: 1.08mm/s
timestep 78/600
energy: 41,354μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.1e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 4.1e+00 (87%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 8e-15
residual norm: 3.3e-05 (100%)
optimal value: 4.1e+07
largest flux: 1.02mm/s
timestep 79/600
energy: 41,240μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.0e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 4.1e+00 (87%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 7.0e-05 (100%)
optimal value: 4.1e+07
largest flux: 0.97mm/s
timestep 80/600
energy: 41,128μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.0e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 5.8e+00 (84%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 6e-14
residual norm: 5.1e-04 (100%)
optimal value: 4.1e+07
largest flux: 0.91mm/s
timestep 81/600
energy: 41,017μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 2.1e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+01 (76%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 3.2e-03 (100%)
optimal value: 4.1e+07
largest flux: 1.18mm/s
timestep 82/600
energy: 40,905μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 2.5e+03 (27%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 1.5e+01 (75%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-14
residual norm: 1.2e-03 (100%)
optimal value: 4.1e+07
largest flux: 1.73mm/s
timestep 83/600
energy: 40,785μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.3e+03 (19%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 4.4e+02 (44%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 4.1e+00 (87%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 3.5e-04 (100%)
optimal value: 4.1e+07
largest flux: 2.18mm/s
timestep 84/600
energy: 40,653μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.7e+03 (19%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 3.7e+02 (45%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 1.8e+00 (95%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-14
residual norm: 4.0e-05 (100%)
optimal value: 4.1e+07
largest flux: 2.19mm/s
timestep 85/600
energy: 40,517μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 4.6e+03 (22%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 9.1e+01 (58%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 6.8e-02 (100%)
optimal value: 4.0e+07
largest flux: 2.00mm/s
timestep 86/600
energy: 40,382μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 3.7e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 3.6e+01 (67%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 6.2e-03 (100%)
optimal value: 4.0e+07
largest flux: 2.08mm/s
timestep 87/600
energy: 40,251μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 3.4e+03 (25%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 2.3e+01 (71%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-14
residual norm: 2.1e-03 (100%)
optimal value: 4.0e+07
largest flux: 2.09mm/s
timestep 88/600
energy: 40,123μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 3.2e+03 (25%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 8e-12
residual norm: 1.8e+01 (73%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 1.2e-03 (100%)
optimal value: 4.0e+07
largest flux: 2.04mm/s
timestep 89/600
energy: 39,999μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 3.0e+03 (26%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 1.5e+01 (75%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 5e-14
residual norm: 7.8e-04 (100%)
optimal value: 4.0e+07
largest flux: 1.93mm/s
timestep 90/600
energy: 39,877μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.8e+03 (26%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 1.3e+01 (77%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 5.3e-04 (100%)
optimal value: 4.0e+07
largest flux: 1.79mm/s
timestep 91/600
energy: 39,759μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.7e+03 (27%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 1.1e+01 (78%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 3.6e-04 (100%)
optimal value: 4.0e+07
largest flux: 1.61mm/s
timestep 92/600
energy: 39,643μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.5e+03 (27%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 8.9e+00 (80%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 2.4e-04 (100%)
optimal value: 4.0e+07
largest flux: 1.47mm/s
timestep 93/600
energy: 39,530μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.4e+03 (28%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 7.4e+00 (81%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 1.6e-04 (100%)
optimal value: 3.9e+07
largest flux: 1.43mm/s
timestep 94/600
energy: 39,419μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.3e+03 (28%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 6.3e+00 (83%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 1e-14
residual norm: 1.1e-04 (100%)
optimal value: 3.9e+07
largest flux: 1.37mm/s
timestep 95/600
energy: 39,310μJ/m (43% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.2e+03 (28%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 5.3e+00 (84%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 9e-15
residual norm: 7.5e-05 (100%)
optimal value: 3.9e+07
largest flux: 1.30mm/s
timestep 96/600
energy: 39,203μJ/m (42% mixture, 39% interface, 18% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.1e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 4.5e+00 (86%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 8e-15
residual norm: 5.1e-05 (100%)
optimal value: 3.9e+07
largest flux: 1.22mm/s
timestep 97/600
energy: 39,099μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.0e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.9e+00 (87%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-15
residual norm: 3.5e-05 (100%)
optimal value: 3.9e+07
largest flux: 1.13mm/s
timestep 98/600
energy: 38,996μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.9e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.4e+00 (89%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-15
residual norm: 2.4e-05 (100%)
optimal value: 3.9e+07
largest flux: 1.06mm/s
timestep 99/600
energy: 38,895μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.9e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.0e+00 (90%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 1.7e-05 (100%)
optimal value: 3.9e+07
largest flux: 1.02mm/s
timestep 100/600
energy: 38,795μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.8e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.7e+00 (91%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 1.2e-05 (100%)
optimal value: 3.9e+07
largest flux: 0.96mm/s
timestep 101/600
energy: 38,697μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.8e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.6e+00 (91%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 9.7e-06 (100%)
optimal value: 3.9e+07
largest flux: 0.96mm/s
timestep 102/600
energy: 38,600μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.8e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 8.7e-06 (100%)
optimal value: 3.9e+07
largest flux: 0.97mm/s
timestep 103/600
energy: 38,504μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 8.5e-06 (100%)
optimal value: 3.8e+07
largest flux: 0.98mm/s
timestep 104/600
energy: 38,409μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 8.9e-06 (100%)
optimal value: 3.8e+07
largest flux: 0.99mm/s
timestep 105/600
energy: 38,315μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 9.6e-06 (100%)
optimal value: 3.8e+07
largest flux: 1.00mm/s
timestep 106/600
energy: 38,221μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.5e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.0e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.01mm/s
timestep 107/600
energy: 38,128μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.5e+00 (91%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.1e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.02mm/s
timestep 108/600
energy: 38,036μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.6e+00 (91%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.3e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.03mm/s
timestep 109/600
energy: 37,944μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.7e+00 (91%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.4e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.05mm/s
timestep 110/600
energy: 37,852μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.8e+00 (90%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 1.5e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.06mm/s
timestep 111/600
energy: 37,760μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.8e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.9e+00 (90%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-15
residual norm: 1.6e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.11mm/s
timestep 112/600
energy: 37,668μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.8e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.1e+00 (89%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 8e-15
residual norm: 1.9e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.17mm/s
timestep 113/600
energy: 37,576μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.8e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 3.4e+00 (88%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-14
residual norm: 2.9e-05 (100%)
optimal value: 3.8e+07
largest flux: 1.24mm/s
timestep 114/600
energy: 37,484μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 1.9e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 4.2e+00 (86%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 8.6e-05 (100%)
optimal value: 3.7e+07
largest flux: 1.32mm/s
timestep 115/600
energy: 37,390μJ/m (42% mixture, 39% interface, 19% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.9e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 6.7e+00 (82%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 8e-14
residual norm: 4.5e-04 (100%)
optimal value: 3.7e+07
largest flux: 1.44mm/s
timestep 116/600
energy: 37,295μJ/m (42% mixture, 39% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 2.1e+03 (28%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.6e+01 (74%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 4.2e-03 (100%)
optimal value: 3.7e+07
largest flux: 1.60mm/s
timestep 117/600
energy: 37,196μJ/m (42% mixture, 39% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 2.6e+03 (26%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.7e+01 (62%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.7 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 7.9e-02 (100%)
optimal value: 3.7e+07
largest flux: 1.90mm/s
timestep 118/600
energy: 37,090μJ/m (42% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 4.2e+03 (22%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.7 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 1.1e+02 (56%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 6.7e-02 (100%)
optimal value: 3.7e+07
largest flux: 2.62mm/s
timestep 119/600
energy: 36,960μJ/m (42% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 1.7e+04 (10%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 2.1e+03 (29%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 6.7e+01 (61%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 7.7e-02 (100%)
optimal value: 3.7e+07
largest flux: 3.02mm/s
timestep 120/600
energy: 36,806μJ/m (42% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.0e+04 (15%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 6.2e+02 (41%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 3.6e+00 (88%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 3e-14
residual norm: 1.3e-04 (100%)
optimal value: 3.7e+07
largest flux: 2.39mm/s
timestep 121/600
energy: 36,674μJ/m (42% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 3.1e+03 (25%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 2.7e+01 (69%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 4.9e-03 (100%)
optimal value: 3.7e+07
largest flux: 1.70mm/s
timestep 122/600
energy: 36,569μJ/m (42% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.9e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 3.7e+00 (88%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 2e-14
residual norm: 2.7e-05 (100%)
optimal value: 3.7e+07
largest flux: 1.12mm/s
timestep 123/600
energy: 36,480μJ/m (42% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.8e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 3.3e+00 (89%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.2e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.07mm/s
timestep 124/600
energy: 36,398μJ/m (41% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 1.7e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.2e+00 (89%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.1e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.04mm/s
timestep 125/600
energy: 36,321μJ/m (41% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 1.7e+03 (29%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.2e+00 (89%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 2.0e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.05mm/s
timestep 126/600
energy: 36,246μJ/m (41% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.7e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.1e+00 (89%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.9e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.05mm/s
timestep 127/600
energy: 36,173μJ/m (41% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.6e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.0e+00 (90%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.7e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.06mm/s
timestep 128/600
energy: 36,101μJ/m (41% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.6e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.8e+00 (90%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.6e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.05mm/s
timestep 129/600
energy: 36,031μJ/m (41% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.6e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.7e+00 (90%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.4e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.05mm/s
timestep 130/600
energy: 35,961μJ/m (41% mixture, 38% interface, 20% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.6e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.6e+00 (91%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.3e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.04mm/s
timestep 131/600
energy: 35,892μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.5e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.4e+00 (91%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.1e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.03mm/s
timestep 132/600
energy: 35,824μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.5e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.3e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.0e-05 (100%)
optimal value: 3.6e+07
largest flux: 1.02mm/s
timestep 133/600
energy: 35,757μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.5e+03 (30%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.2e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 8.7e-06 (100%)
optimal value: 3.6e+07
largest flux: 1.00mm/s
timestep 134/600
energy: 35,690μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.0e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 7.5e-06 (100%)
optimal value: 3.6e+07
largest flux: 0.98mm/s
timestep 135/600
energy: 35,625μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.9e+00 (94%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 6.4e-06 (100%)
optimal value: 3.6e+07
largest flux: 0.96mm/s
timestep 136/600
energy: 35,560μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.8e+00 (94%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.2 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 5.5e-06 (100%)
optimal value: 3.6e+07
largest flux: 0.94mm/s
timestep 137/600
energy: 35,496μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.7e+00 (95%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 4.7e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.93mm/s
timestep 138/600
energy: 35,432μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.6e+00 (96%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 4.0e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.91mm/s
timestep 139/600
energy: 35,370μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.5e+00 (96%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 3.4e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.89mm/s
timestep 140/600
energy: 35,308μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e+00 (97%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.9e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.87mm/s
timestep 141/600
energy: 35,247μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.5e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.85mm/s
timestep 142/600
energy: 35,186μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.2e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.83mm/s
timestep 143/600
energy: 35,126μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.0e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.81mm/s
timestep 144/600
energy: 35,067μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e+00 (99%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 1.9e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.79mm/s
timestep 145/600
energy: 35,008μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e+00 (99%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 1.8e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.77mm/s
timestep 146/600
energy: 34,949μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e+00 (100%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 1.7e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.78mm/s
timestep 147/600
energy: 34,891μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e+00 (100%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 1.7e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.79mm/s
timestep 148/600
energy: 34,834μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e+00 (100%)
optimal value: 3.5e+07
largest flux: 0.79mm/s
timestep 149/600
energy: 34,776μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 9.9e-01 (100%)
optimal value: 3.5e+07
largest flux: 0.81mm/s
timestep 150/600
energy: 34,720μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 9.9e-01 (100%)
optimal value: 3.5e+07
largest flux: 0.82mm/s
timestep 151/600
energy: 34,663μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 9.9e-01 (100%)
optimal value: 3.5e+07
largest flux: 0.84mm/s
timestep 152/600
energy: 34,607μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e+00 (100%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 2.3e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.86mm/s
timestep 153/600
energy: 34,551μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e+00 (100%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.5e-06 (100%)
optimal value: 3.5e+07
largest flux: 0.88mm/s
timestep 154/600
energy: 34,496μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e+00 (100%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 2.8e-06 (100%)
optimal value: 3.4e+07
largest flux: 0.89mm/s
timestep 155/600
energy: 34,440μJ/m (41% mixture, 38% interface, 21% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e+00 (99%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 3.2e-06 (100%)
optimal value: 3.4e+07
largest flux: 0.91mm/s
timestep 156/600
energy: 34,385μJ/m (41% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e+00 (99%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 3.7e-06 (100%)
optimal value: 3.4e+07
largest flux: 0.93mm/s
timestep 157/600
energy: 34,330μJ/m (41% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e+00 (99%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 4.2e-06 (100%)
optimal value: 3.4e+07
largest flux: 0.96mm/s
timestep 158/600
energy: 34,275μJ/m (41% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 4.8e-06 (100%)
optimal value: 3.4e+07
largest flux: 0.98mm/s
timestep 159/600
energy: 34,221μJ/m (41% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 5.6e-06 (100%)
optimal value: 3.4e+07
largest flux: 1.00mm/s
timestep 160/600
energy: 34,166μJ/m (41% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 6.4e-06 (100%)
optimal value: 3.4e+07
largest flux: 1.03mm/s
timestep 161/600
energy: 34,112μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e+00 (97%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 7.4e-06 (100%)
optimal value: 3.4e+07
largest flux: 1.05mm/s
timestep 162/600
energy: 34,058μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e+00 (97%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 8.5e-06 (100%)
optimal value: 3.4e+07
largest flux: 1.08mm/s
timestep 163/600
energy: 34,003μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.5e+00 (96%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 9.8e-06 (100%)
optimal value: 3.4e+07
largest flux: 1.10mm/s
timestep 164/600
energy: 33,949μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.5e+00 (96%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.1e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.13mm/s
timestep 165/600
energy: 33,895μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.6e+00 (95%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.3e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.16mm/s
timestep 166/600
energy: 33,841μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.7e+00 (95%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.4e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.18mm/s
timestep 167/600
energy: 33,788μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.8e+00 (94%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.6e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.21mm/s
timestep 168/600
energy: 33,734μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.9e+00 (94%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.8e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.23mm/s
timestep 169/600
energy: 33,680μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.0e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.9e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.26mm/s
timestep 170/600
energy: 33,627μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.1e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 2.1e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.28mm/s
timestep 171/600
energy: 33,573μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.1e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.3e-05 (100%)
optimal value: 3.4e+07
largest flux: 1.29mm/s
timestep 172/600
energy: 33,520μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.2e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.4e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.30mm/s
timestep 173/600
energy: 33,467μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.3e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 2.5e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.30mm/s
timestep 174/600
energy: 33,413μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.3e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 2.6e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.30mm/s
timestep 175/600
energy: 33,361μJ/m (40% mixture, 38% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.6e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.28mm/s
timestep 176/600
energy: 33,308μJ/m (40% mixture, 37% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.6e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.24mm/s
timestep 177/600
energy: 33,256μJ/m (40% mixture, 37% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 2.6e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.19mm/s
timestep 178/600
energy: 33,203μJ/m (40% mixture, 37% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.4e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 4e-15
residual norm: 2.5e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.13mm/s
timestep 179/600
energy: 33,152μJ/m (40% mixture, 37% interface, 22% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.3e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.3e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.04mm/s
timestep 180/600
energy: 33,100μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.3e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 2.1e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.05mm/s
timestep 181/600
energy: 33,049μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.2e+00 (92%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.9e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.05mm/s
timestep 182/600
energy: 32,999μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.1e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.7e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.04mm/s
timestep 183/600
energy: 32,949μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.1e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 3e-15
residual norm: 1.5e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.03mm/s
timestep 184/600
energy: 32,899μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.0e+00 (93%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.3e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.02mm/s
timestep 185/600
energy: 32,850μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.9e+00 (94%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 1.1e-05 (100%)
optimal value: 3.3e+07
largest flux: 1.01mm/s
timestep 186/600
energy: 32,802μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.8e+00 (94%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 9.1e-06 (100%)
optimal value: 3.3e+07
largest flux: 1.00mm/s
timestep 187/600
energy: 32,754μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.7e+00 (95%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 7.5e-06 (100%)
optimal value: 3.3e+07
largest flux: 0.98mm/s
timestep 188/600
energy: 32,707μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.6e+00 (96%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 6.1e-06 (100%)
optimal value: 3.3e+07
largest flux: 0.96mm/s
timestep 189/600
energy: 32,660μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.5e+00 (96%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-15
residual norm: 5.0e-06 (100%)
optimal value: 3.3e+07
largest flux: 0.94mm/s
timestep 190/600
energy: 32,614μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e+00 (97%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 4.1e-06 (100%)
optimal value: 3.3e+07
largest flux: 0.91mm/s
timestep 191/600
energy: 32,569μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.1e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 3.4e-06 (100%)
optimal value: 3.3e+07
largest flux: 0.89mm/s
timestep 192/600
energy: 32,524μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.0e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.2e+00 (98%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.8e-06 (100%)
optimal value: 3.3e+07
largest flux: 0.86mm/s
timestep 193/600
energy: 32,480μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.0e+03 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e+00 (99%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.4e-06 (100%)
optimal value: 3.2e+07
largest flux: 0.83mm/s
timestep 194/600
energy: 32,437μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 9.9e+02 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.0e+00 (100%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-15
residual norm: 2.0e-06 (100%)
optimal value: 3.2e+07
largest flux: 0.80mm/s
timestep 195/600
energy: 32,394μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 9.6e+02 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 9.7e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.76mm/s
timestep 196/600
energy: 32,352μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 9.4e+02 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 9.1e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.74mm/s
timestep 197/600
energy: 32,311μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 9.1e+02 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 8.5e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.73mm/s
timestep 198/600
energy: 32,270μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 8.9e+02 (33%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 7.9e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.72mm/s
timestep 199/600
energy: 32,230μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 8.7e+02 (34%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 7.3e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.71mm/s
timestep 200/600
energy: 32,191μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 8.4e+02 (34%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 6.8e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.69mm/s
timestep 201/600
energy: 32,152μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 8.2e+02 (34%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 6.3e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.68mm/s
timestep 202/600
energy: 32,114μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 8.0e+02 (34%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 5.9e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.67mm/s
timestep 203/600
energy: 32,076μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 7.8e+02 (34%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 5.5e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.65mm/s
timestep 204/600
energy: 32,038μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 7.5e+02 (35%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 5.2e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.63mm/s
timestep 205/600
energy: 32,002μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 7.3e+02 (35%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 4.8e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.63mm/s
timestep 206/600
energy: 31,966μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 7.1e+02 (35%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 4.5e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.62mm/s
timestep 207/600
energy: 31,930μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 6.9e+02 (35%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 4.3e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.62mm/s
timestep 208/600
energy: 31,895μJ/m (40% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 6.8e+02 (35%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 4.0e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.62mm/s
timestep 209/600
energy: 31,860μJ/m (39% mixture, 37% interface, 23% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 6.6e+02 (36%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 3.8e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.62mm/s
timestep 210/600
energy: 31,825μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 6.4e+02 (36%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 3.6e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.61mm/s
timestep 211/600
energy: 31,791μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 6.3e+02 (36%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 3.4e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.61mm/s
timestep 212/600
energy: 31,758μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 6.1e+02 (36%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 3.3e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.61mm/s
timestep 213/600
energy: 31,725μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 6.0e+02 (36%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 3.1e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.60mm/s
timestep 214/600
energy: 31,692μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.9e+02 (36%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 3.0e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.60mm/s
timestep 215/600
energy: 31,659μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.8e+02 (37%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.9e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.60mm/s
timestep 216/600
energy: 31,627μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.7e+02 (37%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.7e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.59mm/s
timestep 217/600
energy: 31,596μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.5e+02 (37%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.6e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.59mm/s
timestep 218/600
energy: 31,564μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.4e+02 (37%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.5e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.59mm/s
timestep 219/600
energy: 31,533μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.3e+02 (37%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.4e-01 (100%)
optimal value: 3.2e+07
largest flux: 0.58mm/s
timestep 220/600
energy: 31,502μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.2e+02 (37%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.3e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.58mm/s
timestep 221/600
energy: 31,472μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.1e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.3e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.57mm/s
timestep 222/600
energy: 31,442μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 5.0e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.1 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 2.2e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.57mm/s
timestep 223/600
energy: 31,412μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.9e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.1e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.57mm/s
timestep 224/600
energy: 31,382μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.8e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 2.0e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.56mm/s
timestep 225/600
energy: 31,353μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.7e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 2.0e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.56mm/s
timestep 226/600
energy: 31,324μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.6e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.9e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.56mm/s
timestep 227/600
energy: 31,295μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.5e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.8e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.55mm/s
timestep 228/600
energy: 31,267μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.5e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.8e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.55mm/s
timestep 229/600
energy: 31,239μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.4e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.7e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.55mm/s
timestep 230/600
energy: 31,211μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.3e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.6e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.54mm/s
timestep 231/600
energy: 31,183μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.3e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.6e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.54mm/s
timestep 232/600
energy: 31,155μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.2e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.5e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.54mm/s
timestep 233/600
energy: 31,128μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.1e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.5e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.53mm/s
timestep 234/600
energy: 31,101μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.0e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.4e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.53mm/s
timestep 235/600
energy: 31,074μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 4.0e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.4e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.53mm/s
timestep 236/600
energy: 31,048μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.9e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.3e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.52mm/s
timestep 237/600
energy: 31,021μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.8e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.3e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.52mm/s
timestep 238/600
energy: 30,995μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.8e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.51mm/s
timestep 239/600
energy: 30,969μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.7e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.51mm/s
timestep 240/600
energy: 30,943μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.6e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.1e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.50mm/s
timestep 241/600
energy: 30,917μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.6e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.1e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.50mm/s
timestep 242/600
energy: 30,892μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.5e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.1e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.49mm/s
timestep 243/600
energy: 30,866μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.0e-01 (100%)
optimal value: 3.1e+07
largest flux: 0.48mm/s
timestep 244/600
energy: 30,841μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 9.8e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.48mm/s
timestep 245/600
energy: 30,816μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 9.4e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.47mm/s
timestep 246/600
energy: 30,791μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 9.0e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.47mm/s
timestep 247/600
energy: 30,767μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.2e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 8.7e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.47mm/s
timestep 248/600
energy: 30,742μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.2e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 8.4e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.46mm/s
timestep 249/600
energy: 30,718μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.1e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 8.1e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.46mm/s
timestep 250/600
energy: 30,694μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.1e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 7.8e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.46mm/s
timestep 251/600
energy: 30,670μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.1e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 7.5e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.45mm/s
timestep 252/600
energy: 30,646μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.0e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 7.2e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.45mm/s
timestep 253/600
energy: 30,622μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.0e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 6.9e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.45mm/s
timestep 254/600
energy: 30,598μJ/m (39% mixture, 37% interface, 24% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.9e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 6.6e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.44mm/s
timestep 255/600
energy: 30,575μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.9e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 6.4e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.44mm/s
timestep 256/600
energy: 30,551μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.8e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 6.1e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.43mm/s
timestep 257/600
energy: 30,528μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.8e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 5.9e-02 (100%)
optimal value: 3.1e+07
largest flux: 0.43mm/s
timestep 258/600
energy: 30,505μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.8e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 5.7e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.42mm/s
timestep 259/600
energy: 30,481μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.7e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 5.5e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.42mm/s
timestep 260/600
energy: 30,458μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.7e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 5.3e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.42mm/s
timestep 261/600
energy: 30,436μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.6e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 5.1e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.42mm/s
timestep 262/600
energy: 30,413μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.6e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 4.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.42mm/s
timestep 263/600
energy: 30,390μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.6e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 4.7e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.43mm/s
timestep 264/600
energy: 30,368μJ/m (39% mixture, 37% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.5e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 4.6e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.43mm/s
timestep 265/600
energy: 30,345μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.5e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 4.4e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.43mm/s
timestep 266/600
energy: 30,323μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.5e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 4.3e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.43mm/s
timestep 267/600
energy: 30,300μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.5e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 4.1e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.43mm/s
timestep 268/600
energy: 30,278μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 4.0e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.43mm/s
timestep 269/600
energy: 30,256μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 3.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.44mm/s
timestep 270/600
energy: 30,234μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 3.7e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.44mm/s
timestep 271/600
energy: 30,212μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 3.6e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.44mm/s
timestep 272/600
energy: 30,190μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.5e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.44mm/s
timestep 273/600
energy: 30,168μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.4e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.44mm/s
timestep 274/600
energy: 30,146μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.3e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.45mm/s
timestep 275/600
energy: 30,124μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.3e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.45mm/s
timestep 276/600
energy: 30,102μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 3.2e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.45mm/s
timestep 277/600
energy: 30,080μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 3.1e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.45mm/s
timestep 278/600
energy: 30,059μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.1e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.46mm/s
timestep 279/600
energy: 30,037μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 3.0e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.46mm/s
timestep 280/600
energy: 30,015μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 3.0e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.46mm/s
timestep 281/600
energy: 29,994μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.47mm/s
timestep 282/600
energy: 29,972μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.47mm/s
timestep 283/600
energy: 29,951μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.47mm/s
timestep 284/600
energy: 29,929μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.47mm/s
timestep 285/600
energy: 29,908μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 2.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.48mm/s
timestep 286/600
energy: 29,886μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.0e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.48mm/s
timestep 287/600
energy: 29,865μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.0e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.48mm/s
timestep 288/600
energy: 29,843μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.1e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.49mm/s
timestep 289/600
energy: 29,821μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.2e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.50mm/s
timestep 290/600
energy: 29,800μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 3.3e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.51mm/s
timestep 291/600
energy: 29,778μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 3.5e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.52mm/s
timestep 292/600
energy: 29,757μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.7e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.53mm/s
timestep 293/600
energy: 29,735μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 3.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.54mm/s
timestep 294/600
energy: 29,713μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 4.3e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.55mm/s
timestep 295/600
energy: 29,691μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 4.7e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.56mm/s
timestep 296/600
energy: 29,669μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.2e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.57mm/s
timestep 297/600
energy: 29,647μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 2.3e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.9e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.59mm/s
timestep 298/600
energy: 29,625μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 2.3e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 6.8e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.60mm/s
timestep 299/600
energy: 29,603μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 2.3e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 8.0e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.61mm/s
timestep 300/600
energy: 29,581μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.4e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 9.6e-02 (100%)
optimal value: 3.0e+07
largest flux: 0.63mm/s
timestep 301/600
energy: 29,558μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 2.5e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 1.2e-01 (100%)
optimal value: 3.0e+07
largest flux: 0.64mm/s
timestep 302/600
energy: 29,535μJ/m (39% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 2.6e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 1.5e-01 (100%)
optimal value: 3.0e+07
largest flux: 0.66mm/s
timestep 303/600
energy: 29,512μJ/m (38% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 2.7e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 4e-12
residual norm: 1.9e-01 (100%)
optimal value: 3.0e+07
largest flux: 0.68mm/s
timestep 304/600
energy: 29,488μJ/m (38% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 2.9e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 5e-12
residual norm: 2.6e-01 (100%)
optimal value: 2.9e+07
largest flux: 0.70mm/s
timestep 305/600
energy: 29,464μJ/m (38% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 3.1e+02 (40%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.7 orders using 0 krylov vectors
solver returned with residual 6e-12
residual norm: 3.7e-01 (100%)
optimal value: 2.9e+07
largest flux: 0.73mm/s
timestep 306/600
energy: 29,440μJ/m (38% mixture, 36% interface, 25% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 9e-11
residual norm: 3.4e+02 (39%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.5 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 5.7e-01 (100%)
optimal value: 2.9e+07
largest flux: 0.76mm/s
timestep 307/600
energy: 29,415μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 3.9e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.7 orders using 0 krylov vectors
solver returned with residual 8e-12
residual norm: 9.4e-01 (100%)
optimal value: 2.9e+07
largest flux: 0.80mm/s
timestep 308/600
energy: 29,389μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 4.6e+02 (36%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.5 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.8e+00 (94%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.2 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 4.4e-05 (100%)
optimal value: 2.9e+07
largest flux: 0.86mm/s
timestep 309/600
energy: 29,361μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 5.9e+02 (34%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.4 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 3.8e+00 (86%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.1 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 2.6e-04 (100%)
optimal value: 2.9e+07
largest flux: 0.98mm/s
timestep 310/600
energy: 29,331μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 8.3e+02 (31%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.2 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.0e+01 (76%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.1 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.4e-03 (100%)
optimal value: 2.9e+07
largest flux: 1.16mm/s
timestep 311/600
energy: 29,297μJ/m (39% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.6 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 1.4e+03 (26%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.1 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 3.1e+01 (65%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.1 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 2.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 1.50mm/s
timestep 312/600
energy: 29,255μJ/m (39% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.4 orders using 0 krylov vectors
solver returned with residual 8e-10
residual norm: 2.5e+03 (21%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.5 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.3e+01 (74%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 8.0e-04 (100%)
optimal value: 2.9e+07
largest flux: 2.07mm/s
timestep 313/600
energy: 29,193μJ/m (39% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.5 orders using 0 krylov vectors
solver returned with residual 8e-10
residual norm: 9.2e+03 (10%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.3 orders using 0 krylov vectors
solver returned with residual 5e-10
residual norm: 8.7e+02 (33%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.2 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 1.2e+01 (75%)
iter 4
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.7e-03 (100%)
optimal value: 2.9e+07
largest flux: 2.21mm/s
timestep 314/600
energy: 29,115μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 5.3e+03 (15%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.4 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 2.2e+02 (47%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.4 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 5.4e-01 (100%)
optimal value: 2.9e+07
largest flux: 1.75mm/s
timestep 315/600
energy: 29,050μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.7 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 1.8e+03 (24%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.5 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.6e+01 (72%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.4 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 2.1e-03 (100%)
optimal value: 2.9e+07
largest flux: 1.23mm/s
timestep 316/600
energy: 29,001μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.6 orders using 0 krylov vectors
solver returned with residual 4e-10
residual norm: 7.4e+02 (32%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.5 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.5e+00 (96%)
iter 3
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.4 orders using 0 krylov vectors
solver returned with residual 6e-14
residual norm: 1.4e-05 (100%)
optimal value: 2.9e+07
largest flux: 0.93mm/s
timestep 317/600
energy: 28,963μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.7 orders using 0 krylov vectors
solver returned with residual 3e-10
residual norm: 4.0e+02 (38%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.5 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.0e-01 (100%)
optimal value: 2.9e+07
largest flux: 0.79mm/s
timestep 318/600
energy: 28,931μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 2.7e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.6 orders using 0 krylov vectors
solver returned with residual 8e-12
residual norm: 4.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.68mm/s
timestep 319/600
energy: 28,903μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 2.1e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 3e-12
residual norm: 2.0e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.57mm/s
timestep 320/600
energy: 28,879μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.9 orders using 0 krylov vectors
solver returned with residual 2e-10
residual norm: 1.9e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 1.7e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.51mm/s
timestep 321/600
energy: 28,857μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 1.7e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 13.8 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 1.6e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.48mm/s
timestep 322/600
energy: 28,837μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 1e-10
residual norm: 1.6e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.6e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.45mm/s
timestep 323/600
energy: 28,818μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 1.6e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.41mm/s
timestep 324/600
energy: 28,801μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.5e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.39mm/s
timestep 325/600
energy: 28,784μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-11
residual norm: 1.5e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.36mm/s
timestep 326/600
energy: 28,768μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 1.5e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.34mm/s
timestep 327/600
energy: 28,752μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.5e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.32mm/s
timestep 328/600
energy: 28,737μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.32mm/s
timestep 329/600
energy: 28,723μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.32mm/s
timestep 330/600
energy: 28,708μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.32mm/s
timestep 331/600
energy: 28,694μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.32mm/s
timestep 332/600
energy: 28,680μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.32mm/s
timestep 333/600
energy: 28,666μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.32mm/s
timestep 334/600
energy: 28,652μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 335/600
energy: 28,638μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 336/600
energy: 28,624μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 337/600
energy: 28,610μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 338/600
energy: 28,597μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 339/600
energy: 28,583μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 340/600
energy: 28,570μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 341/600
energy: 28,556μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.4e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 342/600
energy: 28,543μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 343/600
energy: 28,530μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 344/600
energy: 28,516μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.9e+07
largest flux: 0.31mm/s
timestep 345/600
energy: 28,503μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.31mm/s
timestep 346/600
energy: 28,490μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.31mm/s
timestep 347/600
energy: 28,477μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.31mm/s
timestep 348/600
energy: 28,464μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.31mm/s
timestep 349/600
energy: 28,451μJ/m (38% mixture, 36% interface, 26% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.31mm/s
timestep 350/600
energy: 28,438μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.31mm/s
timestep 351/600
energy: 28,425μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.32mm/s
timestep 352/600
energy: 28,412μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.32mm/s
timestep 353/600
energy: 28,399μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.32mm/s
timestep 354/600
energy: 28,386μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.32mm/s
timestep 355/600
energy: 28,373μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.32mm/s
timestep 356/600
energy: 28,360μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.33mm/s
timestep 357/600
energy: 28,348μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.33mm/s
timestep 358/600
energy: 28,335μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.33mm/s
timestep 359/600
energy: 28,322μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.33mm/s
timestep 360/600
energy: 28,309μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.33mm/s
timestep 361/600
energy: 28,297μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.33mm/s
timestep 362/600
energy: 28,284μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.33mm/s
timestep 363/600
energy: 28,271μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 364/600
energy: 28,259μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 365/600
energy: 28,246μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 366/600
energy: 28,234μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 367/600
energy: 28,221μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 368/600
energy: 28,209μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 369/600
energy: 28,196μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 370/600
energy: 28,184μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 371/600
energy: 28,172μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 372/600
energy: 28,159μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 373/600
energy: 28,147μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 374/600
energy: 28,135μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 375/600
energy: 28,122μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 376/600
energy: 28,110μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 377/600
energy: 28,098μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 378/600
energy: 28,086μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 379/600
energy: 28,073μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 380/600
energy: 28,061μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 381/600
energy: 28,049μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 382/600
energy: 28,037μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 383/600
energy: 28,025μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 384/600
energy: 28,013μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 385/600
energy: 28,001μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 386/600
energy: 27,989μJ/m (38% mixture, 36% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 387/600
energy: 27,976μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 388/600
energy: 27,964μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 389/600
energy: 27,952μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 390/600
energy: 27,940μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 391/600
energy: 27,928μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 392/600
energy: 27,917μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 393/600
energy: 27,905μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 394/600
energy: 27,893μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 395/600
energy: 27,881μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 396/600
energy: 27,869μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 397/600
energy: 27,857μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 398/600
energy: 27,845μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 399/600
energy: 27,833μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 400/600
energy: 27,821μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.34mm/s
timestep 401/600
energy: 27,809μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.35mm/s
timestep 402/600
energy: 27,797μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.6e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.35mm/s
timestep 403/600
energy: 27,785μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.6e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.35mm/s
timestep 404/600
energy: 27,773μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.6e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.35mm/s
timestep 405/600
energy: 27,762μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.6e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.36mm/s
timestep 406/600
energy: 27,750μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.7e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.36mm/s
timestep 407/600
energy: 27,738μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.7e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.36mm/s
timestep 408/600
energy: 27,726μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.7e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.37mm/s
timestep 409/600
energy: 27,714μJ/m (38% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.8e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.37mm/s
timestep 410/600
energy: 27,702μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.8e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.37mm/s
timestep 411/600
energy: 27,690μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.9e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.38mm/s
timestep 412/600
energy: 27,678μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.9e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.38mm/s
timestep 413/600
energy: 27,666μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.9e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.38mm/s
timestep 414/600
energy: 27,655μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.0e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.39mm/s
timestep 415/600
energy: 27,643μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.0e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.39mm/s
timestep 416/600
energy: 27,631μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.1e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.40mm/s
timestep 417/600
energy: 27,619μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.1e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.40mm/s
timestep 418/600
energy: 27,607μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.40mm/s
timestep 419/600
energy: 27,595μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.2e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.41mm/s
timestep 420/600
energy: 27,583μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 2.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.41mm/s
timestep 421/600
energy: 27,571μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.3e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.42mm/s
timestep 422/600
energy: 27,559μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.42mm/s
timestep 423/600
energy: 27,547μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.42mm/s
timestep 424/600
energy: 27,535μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 2.4e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.43mm/s
timestep 425/600
energy: 27,523μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 2.5e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.43mm/s
timestep 426/600
energy: 27,511μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.5e-02 (100%)
optimal value: 2.8e+07
largest flux: 0.44mm/s
timestep 427/600
energy: 27,499μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.44mm/s
timestep 428/600
energy: 27,487μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.44mm/s
timestep 429/600
energy: 27,475μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.45mm/s
timestep 430/600
energy: 27,463μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.45mm/s
timestep 431/600
energy: 27,451μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 2.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.46mm/s
timestep 432/600
energy: 27,439μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.46mm/s
timestep 433/600
energy: 27,427μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.8e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.46mm/s
timestep 434/600
energy: 27,415μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.8e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.47mm/s
timestep 435/600
energy: 27,403μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 6e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.8e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.47mm/s
timestep 436/600
energy: 27,391μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.47mm/s
timestep 437/600
energy: 27,379μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.48mm/s
timestep 438/600
energy: 27,367μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 2.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.48mm/s
timestep 439/600
energy: 27,355μJ/m (37% mixture, 35% interface, 27% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.0e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.48mm/s
timestep 440/600
energy: 27,343μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.0e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.49mm/s
timestep 441/600
energy: 27,331μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.1e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.49mm/s
timestep 442/600
energy: 27,319μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.1e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.50mm/s
timestep 443/600
energy: 27,307μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.2e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.50mm/s
timestep 444/600
energy: 27,295μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.2e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.50mm/s
timestep 445/600
energy: 27,283μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.3e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.51mm/s
timestep 446/600
energy: 27,271μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.4e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.51mm/s
timestep 447/600
energy: 27,259μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 3.5e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.52mm/s
timestep 448/600
energy: 27,247μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 3.5e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.52mm/s
timestep 449/600
energy: 27,235μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 3.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.52mm/s
timestep 450/600
energy: 27,223μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 3.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.53mm/s
timestep 451/600
energy: 27,211μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 3.8e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.53mm/s
timestep 452/600
energy: 27,199μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 4.0e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.54mm/s
timestep 453/600
energy: 27,187μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 4.1e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.54mm/s
timestep 454/600
energy: 27,175μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 7e-11
residual norm: 1.5e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 4.2e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.55mm/s
timestep 455/600
energy: 27,163μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.5e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 4.4e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.56mm/s
timestep 456/600
energy: 27,150μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.5e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 4.5e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.56mm/s
timestep 457/600
energy: 27,138μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.5e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 4.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.57mm/s
timestep 458/600
energy: 27,126μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.5e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 4.8e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.57mm/s
timestep 459/600
energy: 27,114μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.5e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.0e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.58mm/s
timestep 460/600
energy: 27,102μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.2e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.58mm/s
timestep 461/600
energy: 27,089μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.4e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.59mm/s
timestep 462/600
energy: 27,077μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 5e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.59mm/s
timestep 463/600
energy: 27,065μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 464/600
energy: 27,052μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 5.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 465/600
energy: 27,040μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 6.1e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 466/600
energy: 27,028μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.7e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 6.3e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 467/600
energy: 27,015μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.7e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 6.5e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 468/600
energy: 27,003μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.7e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 6.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 469/600
energy: 26,990μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.7e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 6.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 470/600
energy: 26,978μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 4e-11
residual norm: 1.7e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 7.1e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 471/600
energy: 26,965μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 7.3e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 472/600
energy: 26,953μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 7.4e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.60mm/s
timestep 473/600
energy: 26,940μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 7.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.61mm/s
timestep 474/600
energy: 26,927μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 7.8e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.62mm/s
timestep 475/600
energy: 26,915μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 7.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.62mm/s
timestep 476/600
energy: 26,902μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 8.1e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.63mm/s
timestep 477/600
energy: 26,889μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 8.3e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.63mm/s
timestep 478/600
energy: 26,877μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 8.4e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.64mm/s
timestep 479/600
energy: 26,864μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 8.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.65mm/s
timestep 480/600
energy: 26,851μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 8.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.65mm/s
timestep 481/600
energy: 26,839μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 8.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.66mm/s
timestep 482/600
energy: 26,826μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 9.1e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.66mm/s
timestep 483/600
energy: 26,813μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 9.2e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.67mm/s
timestep 484/600
energy: 26,800μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 9.4e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.67mm/s
timestep 485/600
energy: 26,788μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 9.6e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.68mm/s
timestep 486/600
energy: 26,775μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 9.7e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.68mm/s
timestep 487/600
energy: 26,762μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.0 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 9.9e-02 (100%)
optimal value: 2.7e+07
largest flux: 0.68mm/s
timestep 488/600
energy: 26,749μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 1.0e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 489/600
energy: 26,737μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 490/600
energy: 26,724μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.0e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 491/600
energy: 26,711μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 492/600
energy: 26,698μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 493/600
energy: 26,686μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 494/600
energy: 26,673μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.1 orders using 0 krylov vectors
solver returned with residual 2e-12
residual norm: 1.1e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 495/600
energy: 26,660μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.1e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 496/600
energy: 26,647μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.68mm/s
timestep 497/600
energy: 26,634μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.68mm/s
timestep 498/600
energy: 26,622μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.67mm/s
timestep 499/600
energy: 26,609μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.67mm/s
timestep 500/600
energy: 26,596μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 3e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.68mm/s
timestep 501/600
energy: 26,583μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.2e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.68mm/s
timestep 502/600
energy: 26,571μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 503/600
energy: 26,558μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.69mm/s
timestep 504/600
energy: 26,545μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.70mm/s
timestep 505/600
energy: 26,532μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.2 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.70mm/s
timestep 506/600
energy: 26,520μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.71mm/s
timestep 507/600
energy: 26,507μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.3e-01 (100%)
optimal value: 2.7e+07
largest flux: 0.71mm/s
timestep 508/600
energy: 26,494μJ/m (37% mixture, 35% interface, 28% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.71mm/s
timestep 509/600
energy: 26,481μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 510/600
energy: 26,469μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 511/600
energy: 26,456μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 512/600
energy: 26,443μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 513/600
energy: 26,431μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 514/600
energy: 26,418μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 515/600
energy: 26,405μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.3 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 516/600
energy: 26,393μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.72mm/s
timestep 517/600
energy: 26,380μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.71mm/s
timestep 518/600
energy: 26,368μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.71mm/s
timestep 519/600
energy: 26,355μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.70mm/s
timestep 520/600
energy: 26,343μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.69mm/s
timestep 521/600
energy: 26,330μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.68mm/s
timestep 522/600
energy: 26,318μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.67mm/s
timestep 523/600
energy: 26,306μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.65mm/s
timestep 524/600
energy: 26,293μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.65mm/s
timestep 525/600
energy: 26,281μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 1e-12
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 526/600
energy: 26,269μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 527/600
energy: 26,256μJ/m (37% mixture, 35% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 528/600
energy: 26,244μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 529/600
energy: 26,232μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.4 orders using 0 krylov vectors
solver returned with residual 9e-13
residual norm: 1.4e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 530/600
energy: 26,220μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.3e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 531/600
energy: 26,208μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.3e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 532/600
energy: 26,196μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.3e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 533/600
energy: 26,184μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.3e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 534/600
energy: 26,173μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 8e-13
residual norm: 1.3e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 535/600
energy: 26,161μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.4e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.2e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 536/600
energy: 26,149μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.2e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.66mm/s
timestep 537/600
energy: 26,137μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.2e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.65mm/s
timestep 538/600
energy: 26,126μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.2e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.65mm/s
timestep 539/600
energy: 26,114μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (41%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.2e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.65mm/s
timestep 540/600
energy: 26,103μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.5 orders using 0 krylov vectors
solver returned with residual 7e-13
residual norm: 1.1e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.64mm/s
timestep 541/600
energy: 26,092μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.1e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.63mm/s
timestep 542/600
energy: 26,080μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.3e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.1e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.63mm/s
timestep 543/600
energy: 26,069μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.1e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.62mm/s
timestep 544/600
energy: 26,058μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 1.0e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.61mm/s
timestep 545/600
energy: 26,047μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 1.0e-01 (100%)
optimal value: 2.6e+07
largest flux: 0.60mm/s
timestep 546/600
energy: 26,036μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 9.7e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.59mm/s
timestep 547/600
energy: 26,025μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.2e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 6e-13
residual norm: 9.4e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.57mm/s
timestep 548/600
energy: 26,014μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 9.2e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.56mm/s
timestep 549/600
energy: 26,003μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 8.9e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.55mm/s
timestep 550/600
energy: 25,992μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.1e+02 (42%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 8.6e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.53mm/s
timestep 551/600
energy: 25,982μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.1e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 8.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.52mm/s
timestep 552/600
energy: 25,971μJ/m (37% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 8.1e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.51mm/s
timestep 553/600
energy: 25,961μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 7.8e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.50mm/s
timestep 554/600
energy: 25,950μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 7.5e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.50mm/s
timestep 555/600
energy: 25,940μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 2.0e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 7.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.50mm/s
timestep 556/600
energy: 25,930μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 5e-13
residual norm: 7.0e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.50mm/s
timestep 557/600
energy: 25,919μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 6.8e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.49mm/s
timestep 558/600
energy: 25,909μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 6.5e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.49mm/s
timestep 559/600
energy: 25,899μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.9e+02 (43%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 6.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.49mm/s
timestep 560/600
energy: 25,889μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 6.0e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.49mm/s
timestep 561/600
energy: 25,880μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.6 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 5.8e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.48mm/s
timestep 562/600
energy: 25,870μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 5.6e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.48mm/s
timestep 563/600
energy: 25,860μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-11
residual norm: 1.8e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 5.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.47mm/s
timestep 564/600
energy: 25,850μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.7e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 5.1e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.47mm/s
timestep 565/600
energy: 25,841μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.7e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 4.9e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.47mm/s
timestep 566/600
energy: 25,831μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.7e+02 (44%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 4.7e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.46mm/s
timestep 567/600
energy: 25,822μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.7e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 4.5e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.46mm/s
timestep 568/600
energy: 25,813μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 4.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.45mm/s
timestep 569/600
energy: 25,804μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 4.1e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.45mm/s
timestep 570/600
energy: 25,794μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 4e-13
residual norm: 4.0e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.44mm/s
timestep 571/600
energy: 25,785μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.6e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 3.8e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.44mm/s
timestep 572/600
energy: 25,776μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.5e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 3.6e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.43mm/s
timestep 573/600
energy: 25,767μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.5e+02 (45%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 3.5e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.43mm/s
timestep 574/600
energy: 25,759μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.5e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 3.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.42mm/s
timestep 575/600
energy: 25,750μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.5e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 3.2e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.41mm/s
timestep 576/600
energy: 25,741μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 3.0e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.41mm/s
timestep 577/600
energy: 25,732μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 2.9e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.40mm/s
timestep 578/600
energy: 25,724μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.7e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.39mm/s
timestep 579/600
energy: 25,715μJ/m (36% mixture, 34% interface, 29% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.4e+02 (46%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 3e-13
residual norm: 2.6e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.39mm/s
timestep 580/600
energy: 25,707μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.5e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.38mm/s
timestep 581/600
energy: 25,699μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.4e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.37mm/s
timestep 582/600
energy: 25,690μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.7 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.36mm/s
timestep 583/600
energy: 25,682μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.3e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.2e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.36mm/s
timestep 584/600
energy: 25,674μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.2e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.1e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.35mm/s
timestep 585/600
energy: 25,666μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.2e+02 (47%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 2.0e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.34mm/s
timestep 586/600
energy: 25,658μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.9e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.33mm/s
timestep 587/600
energy: 25,650μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.8e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.33mm/s
timestep 588/600
energy: 25,642μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.2e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.7e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.32mm/s
timestep 589/600
energy: 25,634μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.1e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.6e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.32mm/s
timestep 590/600
energy: 25,626μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.1e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.6e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.31mm/s
timestep 591/600
energy: 25,618μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.1e+02 (48%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.5e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.31mm/s
timestep 592/600
energy: 25,611μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.1e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.4e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.30mm/s
timestep 593/600
energy: 25,603μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.1e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.30mm/s
timestep 594/600
energy: 25,595μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.0e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.3e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.30mm/s
timestep 595/600
energy: 25,588μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.0e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.29mm/s
timestep 596/600
energy: 25,580μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 1.0e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 2e-13
residual norm: 1.2e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.29mm/s
timestep 597/600
energy: 25,573μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 1.0e+02 (49%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 1.1e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.29mm/s
timestep 598/600
energy: 25,565μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 9.8e+01 (50%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 1.1e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.28mm/s
timestep 599/600
energy: 25,558μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 9e-12
residual norm: 9.6e+01 (50%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.9 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 1.0e-02 (100%)
optimal value: 2.6e+07
largest flux: 0.28mm/s
timestep 600/600
energy: 25,551μJ/m (36% mixture, 34% interface, 30% wall)
solve
optimizing for argument φ (10201) and η (10201) using newton method
iter 1
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 15.0 orders using 0 krylov vectors
solver returned with residual 1e-11
residual norm: 9.5e+01 (50%)
iter 2
solving 20402 dof system to tolerance 1e+00 using arnoldi solver
constructing symmetric direct preconditioner
residual decreased by 14.8 orders using 0 krylov vectors
solver returned with residual 1e-13
residual norm: 9.7e-03 (100%)
optimal value: 2.6e+07
largest flux: 0.28mm/s