NUTILS 8.1 "Idiyappam"

arguments

size=10cm

epsilon=1mm

mobility=1mL*s/kg

stens=50mN/m

wtensn=30mN/m

wtensp=20mN/m

nelems=0

etype=rectilinear

degree=1

timestep=.5s

tol=1nJ/m

endtime=1min

seed=0

circle=True

stab=linear

showflux=True

start 2023-08-14 12:05:27

setting nelems to 100

contact angle: 78°

timestep 1/120

energy: 300,322μJ/m (27% mixture, 71% interface, 3% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+04 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.4 orders using 0 krylov vectors

solver returned with residual 5e-09

estimated residual minimum at 100% of update vector

converged with residual 5.5e-09

optimum value 1.20e+08

largest flux: 0.47mm/s

phase.png

timestep 2/120

energy: 105,082μJ/m (85% mixture, 8% interface, 7% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+03 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 3e-09

estimated residual minimum at 100% of update vector

converged with residual 3.8e-09

optimum value 9.93e+07

largest flux: 1.11mm/s

phase.png

timestep 3/120

energy: 93,628μJ/m (84% mixture, 8% interface, 8% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.4 orders using 0 krylov vectors

solver returned with residual 3e-09

estimated residual minimum at 100% of update vector

converged with residual 5.8e-09

optimum value 8.80e+07

largest flux: 1.19mm/s

phase.png

timestep 4/120

energy: 81,504μJ/m (77% mixture, 14% interface, 9% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 2e-09

estimated residual minimum at 100% of update vector

converged with residual 6.9e-09

optimum value 7.65e+07

largest flux: 1.23mm/s

phase.png

timestep 5/120

energy: 71,883μJ/m (67% mixture, 23% interface, 10% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 7e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 2e-09

estimated residual minimum at 100% of update vector

converged with residual 7.3e-09

optimum value 6.88e+07

largest flux: 1.05mm/s

phase.png

timestep 6/120

energy: 66,404μJ/m (59% mixture, 30% interface, 11% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.3 orders using 0 krylov vectors

solver returned with residual 3e-09

estimated residual minimum at 100% of update vector

converged with residual 4.2e-09

optimum value 6.47e+07

largest flux: 0.93mm/s

phase.png

timestep 7/120

energy: 63,288μJ/m (54% mixture, 35% interface, 11% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 4e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 1e-09

estimated residual minimum at 100% of update vector

converged with residual 4.0e-09

optimum value 6.22e+07

largest flux: 0.78mm/s

phase.png

timestep 8/120

energy: 61,178μJ/m (51% mixture, 37% interface, 12% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 3e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 7e-10

estimated residual minimum at 100% of update vector

converged with residual 3.3e-09

optimum value 6.03e+07

largest flux: 0.72mm/s

phase.png

timestep 9/120

energy: 59,507μJ/m (49% mixture, 38% interface, 12% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 3e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 5e-10

estimated residual minimum at 100% of update vector

converged with residual 3.4e-09

optimum value 5.88e+07

largest flux: 0.80mm/s

phase.png

timestep 10/120

energy: 58,031μJ/m (48% mixture, 39% interface, 13% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 3e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 5.73e+07

largest flux: 0.99mm/s

phase.png

timestep 11/120

energy: 56,618μJ/m (48% mixture, 39% interface, 13% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 3e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 3.5e-09

optimum value 5.59e+07

largest flux: 1.00mm/s

phase.png

timestep 12/120

energy: 55,295μJ/m (47% mixture, 40% interface, 13% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 3e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 6e-10

estimated residual minimum at 100% of update vector

converged with residual 3.2e-09

optimum value 5.47e+07

largest flux: 0.86mm/s

phase.png

timestep 13/120

energy: 54,187μJ/m (47% mixture, 40% interface, 14% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 5.37e+07

largest flux: 0.92mm/s

phase.png

timestep 14/120

energy: 53,158μJ/m (46% mixture, 40% interface, 14% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 5.27e+07

largest flux: 0.87mm/s

phase.png

timestep 15/120

energy: 52,229μJ/m (46% mixture, 40% interface, 14% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.9e-09

optimum value 5.18e+07

largest flux: 0.80mm/s

phase.png

timestep 16/120

energy: 51,407μJ/m (46% mixture, 40% interface, 14% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 5.10e+07

largest flux: 0.59mm/s

phase.png

timestep 17/120

energy: 50,660μJ/m (46% mixture, 40% interface, 15% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.8e-09

optimum value 5.03e+07

largest flux: 0.70mm/s

phase.png

timestep 18/120

energy: 49,914μJ/m (45% mixture, 40% interface, 15% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.6e-09

optimum value 4.95e+07

largest flux: 0.86mm/s

phase.png

timestep 19/120

energy: 49,120μJ/m (45% mixture, 40% interface, 15% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.9e-09

optimum value 4.87e+07

largest flux: 1.02mm/s

phase.png

timestep 20/120

energy: 48,236μJ/m (45% mixture, 40% interface, 15% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.8e-09

optimum value 4.79e+07

largest flux: 0.69mm/s

phase.png

timestep 21/120

energy: 47,504μJ/m (45% mixture, 40% interface, 16% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.6e-09

optimum value 4.72e+07

largest flux: 0.79mm/s

phase.png

timestep 22/120

energy: 46,825μJ/m (45% mixture, 40% interface, 16% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 4.65e+07

largest flux: 0.94mm/s

phase.png

timestep 23/120

energy: 46,045μJ/m (45% mixture, 39% interface, 16% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 3.3e-09

optimum value 4.56e+07

largest flux: 1.14mm/s

phase.png

timestep 24/120

energy: 45,200μJ/m (44% mixture, 39% interface, 16% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 6e-10

estimated residual minimum at 100% of update vector

converged with residual 2.9e-09

optimum value 4.49e+07

largest flux: 0.72mm/s

phase.png

timestep 25/120

energy: 44,613μJ/m (44% mixture, 39% interface, 16% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.4 orders using 0 krylov vectors

solver returned with residual 7e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 4.44e+07

largest flux: 0.83mm/s

phase.png

timestep 26/120

energy: 44,103μJ/m (44% mixture, 39% interface, 17% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 5e-10

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 4.39e+07

largest flux: 0.56mm/s

phase.png

timestep 27/120

energy: 43,666μJ/m (44% mixture, 39% interface, 17% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 5e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 4.35e+07

largest flux: 0.56mm/s

phase.png

timestep 28/120

energy: 43,263μJ/m (44% mixture, 39% interface, 17% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.8e-09

optimum value 4.31e+07

largest flux: 0.56mm/s

phase.png

timestep 29/120

energy: 42,870μJ/m (43% mixture, 39% interface, 17% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 4.27e+07

largest flux: 0.55mm/s

phase.png

timestep 30/120

energy: 42,481μJ/m (43% mixture, 39% interface, 17% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 4.23e+07

largest flux: 0.56mm/s

phase.png

timestep 31/120

energy: 42,095μJ/m (43% mixture, 39% interface, 17% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 4.19e+07

largest flux: 0.57mm/s

phase.png

timestep 32/120

energy: 41,710μJ/m (43% mixture, 39% interface, 18% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 1e-10

estimated residual minimum at 100% of update vector

converged with residual 2.6e-09

optimum value 4.15e+07

largest flux: 0.58mm/s

phase.png

timestep 33/120

energy: 41,324μJ/m (43% mixture, 39% interface, 18% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 1e-10

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 4.11e+07

largest flux: 0.58mm/s

phase.png

timestep 34/120

energy: 40,934μJ/m (43% mixture, 39% interface, 18% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 1e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 4.07e+07

largest flux: 0.59mm/s

phase.png

timestep 35/120

energy: 40,535μJ/m (43% mixture, 39% interface, 18% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 3.0e-09

optimum value 4.03e+07

largest flux: 0.76mm/s

phase.png

timestep 36/120

energy: 40,110μJ/m (43% mixture, 39% interface, 18% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.6e-09

optimum value 3.99e+07

largest flux: 1.00mm/s

phase.png

timestep 37/120

energy: 39,628μJ/m (43% mixture, 39% interface, 18% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 3.94e+07

largest flux: 0.82mm/s

phase.png

timestep 38/120

energy: 39,186μJ/m (43% mixture, 39% interface, 19% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 3.90e+07

largest flux: 0.60mm/s

phase.png

timestep 39/120

energy: 38,817μJ/m (43% mixture, 39% interface, 19% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 3.86e+07

largest flux: 0.71mm/s

phase.png

timestep 40/120

energy: 38,439μJ/m (43% mixture, 39% interface, 19% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 3.82e+07

largest flux: 0.89mm/s

phase.png

timestep 41/120

energy: 38,007μJ/m (42% mixture, 38% interface, 19% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 3.78e+07

largest flux: 0.91mm/s

phase.png

timestep 42/120

energy: 37,554μJ/m (42% mixture, 38% interface, 19% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 3.74e+07

largest flux: 0.80mm/s

phase.png

timestep 43/120

energy: 37,146μJ/m (42% mixture, 38% interface, 20% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 2.6e-09

optimum value 3.69e+07

largest flux: 1.07mm/s

phase.png

timestep 44/120

energy: 36,696μJ/m (42% mixture, 38% interface, 20% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 2e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.6e-09

optimum value 3.65e+07

largest flux: 0.59mm/s

phase.png

timestep 45/120

energy: 36,428μJ/m (42% mixture, 38% interface, 20% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 3.1e-09

optimum value 3.63e+07

largest flux: 0.40mm/s

phase.png

timestep 46/120

energy: 36,227μJ/m (42% mixture, 38% interface, 20% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.6e-09

optimum value 3.61e+07

largest flux: 0.42mm/s

phase.png

timestep 47/120

energy: 36,040μJ/m (42% mixture, 38% interface, 20% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 3.59e+07

largest flux: 0.45mm/s

phase.png

timestep 48/120

energy: 35,857μJ/m (41% mixture, 38% interface, 20% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.9e-09

optimum value 3.58e+07

largest flux: 0.50mm/s

phase.png

timestep 49/120

energy: 35,674μJ/m (41% mixture, 38% interface, 20% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 3e-10

estimated residual minimum at 100% of update vector

converged with residual 3.3e-09

optimum value 3.56e+07

largest flux: 0.58mm/s

phase.png

timestep 50/120

energy: 35,484μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.4 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 3.0e-09

optimum value 3.54e+07

largest flux: 0.69mm/s

phase.png

timestep 51/120

energy: 35,274μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.3 orders using 0 krylov vectors

solver returned with residual 5e-10

estimated residual minimum at 100% of update vector

converged with residual 3.0e-09

optimum value 3.52e+07

largest flux: 0.89mm/s

phase.png

timestep 52/120

energy: 35,028μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.2 orders using 0 krylov vectors

solver returned with residual 6e-10

estimated residual minimum at 100% of update vector

converged with residual 3.4e-09

optimum value 3.49e+07

largest flux: 0.68mm/s

phase.png

timestep 53/120

energy: 34,833μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 13.9 orders using 0 krylov vectors

solver returned with residual 1e-09

estimated residual minimum at 100% of update vector

converged with residual 3.1e-09

optimum value 3.48e+07

largest flux: 0.31mm/s

phase.png

timestep 54/120

energy: 34,688μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.1 orders using 0 krylov vectors

solver returned with residual 7e-10

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 3.46e+07

largest flux: 0.31mm/s

phase.png

timestep 55/120

energy: 34,555μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.4 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 3.45e+07

largest flux: 0.31mm/s

phase.png

timestep 56/120

energy: 34,425μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.6 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.44e+07

largest flux: 0.31mm/s

phase.png

timestep 57/120

energy: 34,297μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 1e-10

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 3.42e+07

largest flux: 0.31mm/s

phase.png

timestep 58/120

energy: 34,170μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 8e-11

estimated residual minimum at 100% of update vector

converged with residual 2.0e-09

optimum value 3.41e+07

largest flux: 0.31mm/s

phase.png

timestep 59/120

energy: 34,045μJ/m (41% mixture, 38% interface, 21% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.40e+07

largest flux: 0.32mm/s

phase.png

timestep 60/120

energy: 33,920μJ/m (41% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.0e-09

optimum value 3.39e+07

largest flux: 0.32mm/s

phase.png

timestep 61/120

energy: 33,797μJ/m (41% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 3.37e+07

largest flux: 0.32mm/s

phase.png

timestep 62/120

energy: 33,674μJ/m (41% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.0e-09

optimum value 3.36e+07

largest flux: 0.33mm/s

phase.png

timestep 63/120

energy: 33,552μJ/m (41% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.35e+07

largest flux: 0.34mm/s

phase.png

timestep 64/120

energy: 33,430μJ/m (41% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 7e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 3.34e+07

largest flux: 0.35mm/s

phase.png

timestep 65/120

energy: 33,308μJ/m (41% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 7e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.0e-09

optimum value 3.32e+07

largest flux: 0.35mm/s

phase.png

timestep 66/120

energy: 33,186μJ/m (40% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 7e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.31e+07

largest flux: 0.36mm/s

phase.png

timestep 67/120

energy: 33,064μJ/m (40% mixture, 38% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 7e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.30e+07

largest flux: 0.37mm/s

phase.png

timestep 68/120

energy: 32,941μJ/m (40% mixture, 37% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 7e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 3.29e+07

largest flux: 0.37mm/s

phase.png

timestep 69/120

energy: 32,818μJ/m (40% mixture, 37% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.0e-09

optimum value 3.28e+07

largest flux: 0.38mm/s

phase.png

timestep 70/120

energy: 32,694μJ/m (40% mixture, 37% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 3.26e+07

largest flux: 0.38mm/s

phase.png

timestep 71/120

energy: 32,569μJ/m (40% mixture, 37% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 3.25e+07

largest flux: 0.39mm/s

phase.png

timestep 72/120

energy: 32,442μJ/m (40% mixture, 37% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.2 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.24e+07

largest flux: 0.40mm/s

phase.png

timestep 73/120

energy: 32,313μJ/m (40% mixture, 37% interface, 22% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.22e+07

largest flux: 0.41mm/s

phase.png

timestep 74/120

energy: 32,182μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.21e+07

largest flux: 0.43mm/s

phase.png

timestep 75/120

energy: 32,047μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 3.20e+07

largest flux: 0.46mm/s

phase.png

timestep 76/120

energy: 31,907μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 8e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.18e+07

largest flux: 0.49mm/s

phase.png

timestep 77/120

energy: 31,761μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 7e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.17e+07

largest flux: 0.53mm/s

phase.png

timestep 78/120

energy: 31,604μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 9e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 8e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.15e+07

largest flux: 0.57mm/s

phase.png

timestep 79/120

energy: 31,429μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 1e-10

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.13e+07

largest flux: 0.65mm/s

phase.png

timestep 80/120

energy: 31,220μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.11e+07

largest flux: 0.82mm/s

phase.png

timestep 81/120

energy: 30,937μJ/m (40% mixture, 37% interface, 23% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 1e-10

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 3.08e+07

largest flux: 0.93mm/s

phase.png

timestep 82/120

energy: 30,619μJ/m (40% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 1e+02 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 3.05e+07

largest flux: 0.43mm/s

phase.png

timestep 83/120

energy: 30,482μJ/m (40% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 7e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.3 orders using 0 krylov vectors

solver returned with residual 4e-10

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.04e+07

largest flux: 0.25mm/s

phase.png

timestep 84/120

energy: 30,391μJ/m (40% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 6e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.4 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 3.04e+07

largest flux: 0.23mm/s

phase.png

timestep 85/120

energy: 30,311μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 6e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.5 orders using 0 krylov vectors

solver returned with residual 2e-10

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.03e+07

largest flux: 0.23mm/s

phase.png

timestep 86/120

energy: 30,234μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 6e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.7 orders using 0 krylov vectors

solver returned with residual 1e-10

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 3.02e+07

largest flux: 0.23mm/s

phase.png

timestep 87/120

energy: 30,160μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 6e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.8 orders using 0 krylov vectors

solver returned with residual 8e-11

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 3.01e+07

largest flux: 0.23mm/s

phase.png

timestep 88/120

energy: 30,086μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 7e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.00e+07

largest flux: 0.23mm/s

phase.png

timestep 89/120

energy: 30,012μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 3.00e+07

largest flux: 0.23mm/s

phase.png

timestep 90/120

energy: 29,939μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.99e+07

largest flux: 0.23mm/s

phase.png

timestep 91/120

energy: 29,867μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 2.98e+07

largest flux: 0.23mm/s

phase.png

timestep 92/120

energy: 29,795μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.98e+07

largest flux: 0.23mm/s

phase.png

timestep 93/120

energy: 29,723μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 2.97e+07

largest flux: 0.23mm/s

phase.png

timestep 94/120

energy: 29,651μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.96e+07

largest flux: 0.24mm/s

phase.png

timestep 95/120

energy: 29,580μJ/m (39% mixture, 37% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 2.95e+07

largest flux: 0.24mm/s

phase.png

timestep 96/120

energy: 29,509μJ/m (39% mixture, 36% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 2.95e+07

largest flux: 0.24mm/s

phase.png

timestep 97/120

energy: 29,439μJ/m (39% mixture, 36% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 2.94e+07

largest flux: 0.24mm/s

phase.png

timestep 98/120

energy: 29,368μJ/m (39% mixture, 36% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 2.93e+07

largest flux: 0.24mm/s

phase.png

timestep 99/120

energy: 29,298μJ/m (39% mixture, 36% interface, 24% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 2.93e+07

largest flux: 0.24mm/s

phase.png

timestep 100/120

energy: 29,228μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 2.92e+07

largest flux: 0.24mm/s

phase.png

timestep 101/120

energy: 29,158μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.91e+07

largest flux: 0.24mm/s

phase.png

timestep 102/120

energy: 29,089μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 2.91e+07

largest flux: 0.24mm/s

phase.png

timestep 103/120

energy: 29,019μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.7e-09

optimum value 2.90e+07

largest flux: 0.24mm/s

phase.png

timestep 104/120

energy: 28,950μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.5e-09

optimum value 2.89e+07

largest flux: 0.24mm/s

phase.png

timestep 105/120

energy: 28,880μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 4e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.88e+07

largest flux: 0.24mm/s

phase.png

timestep 106/120

energy: 28,811μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.1 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 2.88e+07

largest flux: 0.24mm/s

phase.png

timestep 107/120

energy: 28,741μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 2.87e+07

largest flux: 0.24mm/s

phase.png

timestep 108/120

energy: 28,672μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 2.86e+07

largest flux: 0.25mm/s

phase.png

timestep 109/120

energy: 28,602μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.86e+07

largest flux: 0.25mm/s

phase.png

timestep 110/120

energy: 28,532μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 2.85e+07

largest flux: 0.26mm/s

phase.png

timestep 111/120

energy: 28,462μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 2.84e+07

largest flux: 0.26mm/s

phase.png

timestep 112/120

energy: 28,392μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 2.84e+07

largest flux: 0.27mm/s

phase.png

timestep 113/120

energy: 28,322μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.83e+07

largest flux: 0.27mm/s

phase.png

timestep 114/120

energy: 28,251μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.3e-09

optimum value 2.82e+07

largest flux: 0.28mm/s

phase.png

timestep 115/120

energy: 28,180μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.0e-09

optimum value 2.81e+07

largest flux: 0.29mm/s

phase.png

timestep 116/120

energy: 28,109μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.81e+07

largest flux: 0.29mm/s

phase.png

timestep 117/120

energy: 28,036μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.80e+07

largest flux: 0.30mm/s

phase.png

timestep 118/120

energy: 27,964μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 15.0 orders using 0 krylov vectors

solver returned with residual 5e-11

estimated residual minimum at 100% of update vector

converged with residual 2.2e-09

optimum value 2.79e+07

largest flux: 0.31mm/s

phase.png

timestep 119/120

energy: 27,890μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.1e-09

optimum value 2.79e+07

largest flux: 0.31mm/s

phase.png

timestep 120/120

energy: 27,816μJ/m (39% mixture, 36% interface, 25% wall)

optimize

newton 0%

solve

solving 20402 dof system to tolerance 5e+01 using arnoldi solver

constructing symmetric direct preconditioner

peak memory use 23,808k

residual decreased by 14.9 orders using 0 krylov vectors

solver returned with residual 6e-11

estimated residual minimum at 100% of update vector

converged with residual 2.4e-09

optimum value 2.78e+07

largest flux: 0.32mm/s

phase.png

finish 2023-08-14 13:07:08, elapsed 1:01:40