27-Aug-2020 16:32:54 navier_stokes_2d_exact_test: MATLAB/Octave version 4.2.2 Test navier_stokes_2d_exact(). gnuplot_cavity_test: MATLAB/Octave version 4.2.2 cavity flow: Generate a velocity field on a regular grid. 0 <= X <= 1, 0 <= Y <= 1 T = 0 Store in GNUPLOT data and command files. Data written to "cavity_data.txt". Commands written to "cavity_commands.txt". gnuplot_exppoly_test: MATLAB/Octave version 4.2.2 exppoly flow: Generate a velocity field on a regular grid. 0 <= X <= 1, 0 <= Y <= 1 T = 10 Store in GNUPLOT data and command files. Data written to "exppoly_data.txt". Commands written to "exppoly_commands.txt". gnuplot_exptrig_test: MATLAB/Octave version 4.2.2 exptrig flow: Generate a velocity field on a regular grid. 0 <= X <= 1, 0 <= Y <= 1 T = 3 Store in GNUPLOT data and command files. Data written to "exptrig_data.txt". Commands written to "exptrig_commands.txt". gnuplot_gms_test: MATLAB/Octave version 4.2.2 GMS flow: Generate a velocity field on a regular grid. 0 <= X <= 3, 0 <= Y <= 3 T = 1 Store in GNUPLOT data and command files. Data written to "gms_data.txt". Commands written to "gms_commands.txt". gnuplot_lukas_test: MATLAB/Octave version 4.2.2 Lukas Bystricky flow: Generate a velocity field on a regular grid. 0 <= X <= 1, 0 <= Y <= 1 T = 0 Store in GNUPLOT data and command files. Data written to "lukas_data.txt". Commands written to "lukas_commands.txt". gnuplot_poiseuille_test: MATLAB/Octave version 4.2.2 Poiseuille flow: Generate a velocity field on a regular grid. 0 <= X <= 6, -1 <= Y <= 1 T = 0 Store in GNUPLOT data and command files. Data written to "poiseuille_data.txt". Commands written to "poiseuille_commands.txt". gnuplot_spiral_test: MATLAB/Octave version 4.2.2 spiral flow: Generate a velocity field on a regular grid. 0 <= X <= 1, 0 <= Y <= 1 T = 1 Store in GNUPLOT data and command files. Data written to "spiral_data.txt". Commands written to "spiral_commands.txt". gnuplot_taylor_test: MATLAB/Octave version 4.2.2 Taylor flow: Generate a velocity field on a regular grid. 0.5 <= X <= 2.5, 0.5 <= Y <= 2.5 T = 0 Store in GNUPLOT data and command files. Data written to "taylor_data.txt". Commands written to "taylor_commands.txt". gnuplot_vortex_test: MATLAB/Octave version 4.2.2 Vortex flow: Generate a velocity field on a regular grid. 0.5 <= X <= 1.5, 0.5 <= Y <= 1.5 T = 0 Store in GNUPLOT data and command files. Data written to "vortex_data.txt". Commands written to "vortex_commands.txt". parameter_poiseuille_test MATLAB/Octave version 4.2.2 Poiseuille Flow: Monitor solution norms over time for various values of NU, RHO. 0 <= X <= 6, -1 <= Y <= 1 RHO affects the pressure scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.02296 0 0.2197 1 1 0.2000 0.02296 0 0.2197 1 1 0.4000 0.02296 0 0.2197 1 1 0.6000 0.02296 0 0.2197 1 1 0.8000 0.02296 0 0.2197 1 1 1.0000 0.02296 0 0.2197 0.01 1 0.0000 0.02296 0 0.002197 0.01 1 0.2000 0.02296 0 0.002197 0.01 1 0.4000 0.02296 0 0.002197 0.01 1 0.6000 0.02296 0 0.002197 0.01 1 0.8000 0.02296 0 0.002197 0.01 1 1.0000 0.02296 0 0.002197 0.0001 1 0.0000 0.02296 0 2.197e-05 0.0001 1 0.2000 0.02296 0 2.197e-05 0.0001 1 0.4000 0.02296 0 2.197e-05 0.0001 1 0.6000 0.02296 0 2.197e-05 0.0001 1 0.8000 0.02296 0 2.197e-05 0.0001 1 1.0000 0.02296 0 2.197e-05 NU affects the time scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.02296 0 0.2197 1 1 0.2000 0.02296 0 0.2197 1 1 0.4000 0.02296 0 0.2197 1 1 0.6000 0.02296 0 0.2197 1 1 0.8000 0.02296 0 0.2197 1 1 1.0000 0.02296 0 0.2197 1 0.1 0.0000 0.02296 0 0.02197 1 0.1 0.2000 0.02296 0 0.02197 1 0.1 0.4000 0.02296 0 0.02197 1 0.1 0.6000 0.02296 0 0.02197 1 0.1 0.8000 0.02296 0 0.02197 1 0.1 1.0000 0.02296 0 0.02197 1 0.01 0.0000 0.02296 0 0.002197 1 0.01 0.2000 0.02296 0 0.002197 1 0.01 0.4000 0.02296 0 0.002197 1 0.01 0.6000 0.02296 0 0.002197 1 0.01 0.8000 0.02296 0 0.002197 1 0.01 1.0000 0.02296 0 0.002197 1 0.001 0.0000 0.02296 0 0.0002197 1 0.001 0.2000 0.02296 0 0.0002197 1 0.001 0.4000 0.02296 0 0.0002197 1 0.001 0.6000 0.02296 0 0.0002197 1 0.001 0.8000 0.02296 0 0.0002197 1 0.001 1.0000 0.02296 0 0.0002197 parameter_spiral_test MATLAB/Octave version 4.2.2 spiral flow: Monitor solution norms over time for various values of NU, RHO. 0 <= X <= 1, 0 <= Y <= 1 RHO affects the pressure scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.0001767 0.0001712 0.01798 1 1 0.2000 0.0002121 0.0002055 0.01798 1 1 0.4000 0.0002474 0.0002397 0.01798 1 1 0.6000 0.0002828 0.000274 0.01798 1 1 0.8000 0.0003181 0.0003082 0.01798 1 1 1.0000 0.0003534 0.0003425 0.01798 0.01 1 0.0000 0.0001767 0.0001712 0.0001798 0.01 1 0.2000 0.0002121 0.0002055 0.0001798 0.01 1 0.4000 0.0002474 0.0002397 0.0001798 0.01 1 0.6000 0.0002828 0.000274 0.0001798 0.01 1 0.8000 0.0003181 0.0003082 0.0001798 0.01 1 1.0000 0.0003534 0.0003425 0.0001798 0.0001 1 0.0000 0.0001767 0.0001712 1.798e-06 0.0001 1 0.2000 0.0002121 0.0002055 1.798e-06 0.0001 1 0.4000 0.0002474 0.0002397 1.798e-06 0.0001 1 0.6000 0.0002828 0.000274 1.798e-06 0.0001 1 0.8000 0.0003181 0.0003082 1.798e-06 0.0001 1 1.0000 0.0003534 0.0003425 1.798e-06 NU affects the time scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.0001767 0.0001712 0.01798 1 1 0.2000 0.0002121 0.0002055 0.01798 1 1 0.4000 0.0002474 0.0002397 0.01798 1 1 0.6000 0.0002828 0.000274 0.01798 1 1 0.8000 0.0003181 0.0003082 0.01798 1 1 1.0000 0.0003534 0.0003425 0.01798 1 0.1 0.0000 0.0001767 0.0001712 0.01798 1 0.1 0.2000 0.0001803 0.0001747 0.01798 1 0.1 0.4000 0.0001838 0.0001781 0.01798 1 0.1 0.6000 0.0001873 0.0001815 0.01798 1 0.1 0.8000 0.0001909 0.0001849 0.01798 1 0.1 1.0000 0.0001944 0.0001884 0.01798 1 0.01 0.0000 0.0001767 0.0001712 0.01798 1 0.01 0.2000 0.0001771 0.0001716 0.01798 1 0.01 0.4000 0.0001774 0.0001719 0.01798 1 0.01 0.6000 0.0001778 0.0001723 0.01798 1 0.01 0.8000 0.0001781 0.0001726 0.01798 1 0.01 1.0000 0.0001785 0.000173 0.01798 1 0.001 0.0000 0.0001767 0.0001712 0.01798 1 0.001 0.2000 0.0001768 0.0001713 0.01798 1 0.001 0.4000 0.0001768 0.0001713 0.01798 1 0.001 0.6000 0.0001768 0.0001714 0.01798 1 0.001 0.8000 0.0001769 0.0001714 0.01798 1 0.001 1.0000 0.0001769 0.0001714 0.01798 parameter_taylor_test MATLAB/Octave version 4.2.2 Taylor flow: Monitor solution norms over time for various values of NU, RHO. 0.5 <= X <= 2.5, 0.5 <= Y <= 2.5 RHO affects the pressure scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.01571 0.01599 0.007905 1 1 0.2000 0.0003032 0.0003086 2.943e-06 1 1 0.4000 5.851e-06 5.955e-06 1.096e-09 1 1 0.6000 1.129e-07 1.149e-07 4.081e-13 1 1 0.8000 2.179e-09 2.217e-09 1.519e-16 1 1 1.0000 4.204e-11 4.278e-11 5.658e-20 0.01 1 0.0000 0.01571 0.01599 7.905e-05 0.01 1 0.2000 0.0003032 0.0003086 2.943e-08 0.01 1 0.4000 5.851e-06 5.955e-06 1.096e-11 0.01 1 0.6000 1.129e-07 1.149e-07 4.081e-15 0.01 1 0.8000 2.179e-09 2.217e-09 1.519e-18 0.01 1 1.0000 4.204e-11 4.278e-11 5.658e-22 0.0001 1 0.0000 0.01571 0.01599 7.905e-07 0.0001 1 0.2000 0.0003032 0.0003086 2.943e-10 0.0001 1 0.4000 5.851e-06 5.955e-06 1.096e-13 0.0001 1 0.6000 1.129e-07 1.149e-07 4.081e-17 0.0001 1 0.8000 2.179e-09 2.217e-09 1.519e-20 0.0001 1 1.0000 4.204e-11 4.278e-11 5.658e-24 NU affects the time scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.01571 0.01599 0.007905 1 1 0.2000 0.0003032 0.0003086 2.943e-06 1 1 0.4000 5.851e-06 5.955e-06 1.096e-09 1 1 0.6000 1.129e-07 1.149e-07 4.081e-13 1 1 0.8000 2.179e-09 2.217e-09 1.519e-16 1 1 1.0000 4.204e-11 4.278e-11 5.658e-20 1 0.1 0.0000 0.01571 0.01599 0.007905 1 0.1 0.2000 0.01059 0.01078 0.003589 1 0.1 0.4000 0.007135 0.007261 0.00163 1 0.1 0.6000 0.004808 0.004893 0.0007399 1 0.1 0.8000 0.00324 0.003297 0.000336 1 0.1 1.0000 0.002183 0.002222 0.0001525 1 0.01 0.0000 0.01571 0.01599 0.007905 1 0.01 0.2000 0.01511 0.01537 0.007305 1 0.01 0.4000 0.01452 0.01478 0.00675 1 0.01 0.6000 0.01396 0.01421 0.006238 1 0.01 0.8000 0.01342 0.01366 0.005764 1 0.01 1.0000 0.0129 0.01313 0.005327 1 0.001 0.0000 0.01571 0.01599 0.007905 1 0.001 0.2000 0.01565 0.01593 0.007843 1 0.001 0.4000 0.01559 0.01587 0.007781 1 0.001 0.6000 0.01553 0.0158 0.00772 1 0.001 0.8000 0.01547 0.01574 0.007659 1 0.001 1.0000 0.01541 0.01568 0.007599 parameter_vortex_test MATLAB/Octave version 4.2.2 Vortex flow: Monitor solution norms over time for various values of NU, RHO. 0.5 <= X <= 1.5, 0.5 <= Y <= 1.5 RHO affects the pressure scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.01588 0.01536 0.008127 1 1 0.2000 0.01588 0.01536 0.008127 1 1 0.4000 0.01588 0.01536 0.008127 1 1 0.6000 0.01588 0.01536 0.008127 1 1 0.8000 0.01588 0.01536 0.008127 1 1 1.0000 0.01588 0.01536 0.008127 0.01 1 0.0000 0.01588 0.01536 8.127e-05 0.01 1 0.2000 0.01588 0.01536 8.127e-05 0.01 1 0.4000 0.01588 0.01536 8.127e-05 0.01 1 0.6000 0.01588 0.01536 8.127e-05 0.01 1 0.8000 0.01588 0.01536 8.127e-05 0.01 1 1.0000 0.01588 0.01536 8.127e-05 0.0001 1 0.0000 0.01588 0.01536 8.127e-07 0.0001 1 0.2000 0.01588 0.01536 8.127e-07 0.0001 1 0.4000 0.01588 0.01536 8.127e-07 0.0001 1 0.6000 0.01588 0.01536 8.127e-07 0.0001 1 0.8000 0.01588 0.01536 8.127e-07 0.0001 1 1.0000 0.01588 0.01536 8.127e-07 NU affects the time scaling. RHO NU T ||U|| ||V|| ||P|| 1 1 0.0000 0.01588 0.01536 0.008127 1 1 0.2000 0.01588 0.01536 0.008127 1 1 0.4000 0.01588 0.01536 0.008127 1 1 0.6000 0.01588 0.01536 0.008127 1 1 0.8000 0.01588 0.01536 0.008127 1 1 1.0000 0.01588 0.01536 0.008127 1 0.1 0.0000 0.01588 0.01536 0.008127 1 0.1 0.2000 0.01588 0.01536 0.008127 1 0.1 0.4000 0.01588 0.01536 0.008127 1 0.1 0.6000 0.01588 0.01536 0.008127 1 0.1 0.8000 0.01588 0.01536 0.008127 1 0.1 1.0000 0.01588 0.01536 0.008127 1 0.01 0.0000 0.01588 0.01536 0.008127 1 0.01 0.2000 0.01588 0.01536 0.008127 1 0.01 0.4000 0.01588 0.01536 0.008127 1 0.01 0.6000 0.01588 0.01536 0.008127 1 0.01 0.8000 0.01588 0.01536 0.008127 1 0.01 1.0000 0.01588 0.01536 0.008127 1 0.001 0.0000 0.01588 0.01536 0.008127 1 0.001 0.2000 0.01588 0.01536 0.008127 1 0.001 0.4000 0.01588 0.01536 0.008127 1 0.001 0.6000 0.01588 0.01536 0.008127 1 0.001 0.8000 0.01588 0.01536 0.008127 1 0.001 1.0000 0.01588 0.01536 0.008127 resid_cavity_test MATLAB/Octave version 4.2.2 cavity flow Sample the Navier-Stokes residuals 0 <= X <= 1, 0 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 resid_exppoly_test MATLAB/Octave version 4.2.2 exppoly flow Sample the Navier-Stokes residuals 0 <= X <= 1, 0 <= Y <= 1 T = 10 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 resid_exptrig_test MATLAB/Octave version 4.2.2 exptrig flow Sample the Navier-Stokes residuals 0 <= X <= 1, 0 <= Y <= 1 T = 3 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 resid_gms_test MATLAB/Octave version 4.2.2 GMS flow Sample the Navier-Stokes residuals -1 <= X <= 1, -1 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 resid_lukas_test MATLAB/Octave version 4.2.2 Lukas Bystricky flow Sample the Navier-Stokes residuals 0 <= X <= 1, 0 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 0 Vr: 0 1.77636e-15 Pr: 0 0 resid_poiseuille_test MATLAB/Octave version 4.2.2 Poiseuille Flow: Sample the Navier-Stokes residuals 0 <= X <= 6, -1 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 resid_spiral_test MATLAB/Octave version 4.2.2 Spiral flow: Sample the Navier-Stokes residuals 0 <= X <= 1, 0 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 resid_taylor_test MATLAB/Octave version 4.2.2 Taylor flow: Sample the Navier-Stokes residuals 0.5 <= X <= 2.5, 0.5 <= Y <= 2.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 3.55271e-15 Vr: 0 3.55271e-15 Pr: 0 0 resid_vortex_test MATLAB/Octave version 4.2.2 Vortex flow: Sample the Navier-Stokes residuals 0.5 <= X <= 1.5, 0.5 <= Y <= 1.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum Ur: 0 3.55271e-15 Vr: 0 3.55271e-15 Pr: 0 0 rhs_cavity_test MATLAB/Octave version 4.2.2 cavity flow Sample the Navier-Stokes right hand sides 0 <= X <= 1, 0 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: -10976 3.9507 G: -9095.47 32.2009 H: 0 0 rhs_exppoly_test MATLAB/Octave version 4.2.2 exppoly flow Sample the Navier-Stokes right hand sides 0 <= X <= 1, 0 <= Y <= 1 T = 10 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: -32.8567 32.7318 G: -69208.9 69208.6 H: 0 0 rhs_exptrig_test MATLAB/Octave version 4.2.2 exptrig flow Sample the Navier-Stokes right hand sides 0 <= X <= 1, 0 <= Y <= 1 T = 3 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: -1981.23 1975.28 G: -2043.96 2043.76 H: 0 0 rhs_gms_test MATLAB/Octave version 4.2.2 GMS flow Sample the Navier-Stokes right hand sides -1 <= X <= 1, -1 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: -161.377 158.482 G: -160.675 160.054 H: 0 0 rhs_lukas_test MATLAB/Octave version 4.2.2 Lukas Bystricky flow Sample the Navier-Stokes right hand sides 0 <= X <= 1, 0 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: -3.1575 3.15751 G: -8.79482 0.935149 H: 0 0 rhs_poiseuille_test MATLAB/Octave version 4.2.2 Poiseuille flow: Sample the Navier-Stokes right hand sides 0 <= X <= 6, -1 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: 0 0 G: 0 0 H: 0 0 rhs_spiral_test MATLAB/Octave version 4.2.2 Spiral flow: Sample the Navier-Stokes right hand sides 0 <= X <= 1, 0 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: -1.51693 1.52348 G: -0.522514 2.52273 H: 0 0 rhs_taylor_test MATLAB/Octave version 4.2.2 Taylor flow: Sample the Navier-Stokes right hand sides 0.5 <= X <= 2.5, 0.5 <= Y <= 2.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: 0 0 G: 0 0 H: 0 0 rhs_vortex_test MATLAB/Octave version 4.2.2 Vortex flow: Sample the Navier-Stokes right hand sides 0.5 <= X <= 1.5, 0.5 <= Y <= 1.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum F: -19.7152 19.6136 G: -19.7197 19.7284 H: 0 0 uvp_cavity_test MATLAB/Octave version 4.2.2 cavity flow Estimate the range of velocity and pressure 0 <= X <= 1, 0 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.271137 0.961912 V: -0.384343 0.381705 P: -1817.87 2.6478 uvp_exppoly_test MATLAB/Octave version 4.2.2 exppoly flow Estimate the range of velocity and pressure 0 <= X <= 1, 0 <= Y <= 1 T = 10 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.515836 0.51384 V: -0.515857 0.516382 P: -13844.6 8003.86 uvp_exptrig_test MATLAB/Octave version 4.2.2 exptrig flow Estimate the range of velocity and pressure 0 <= X <= 1, 0 <= Y <= 1 T = 3 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -20.0373 19.9435 V: -19.7504 19.9457 P: -12.6247 7.29858 uvp_gms_test MATLAB/Octave version 4.2.2 GMS flow Estimate the range of velocity and pressure -1 <= X <= 1, -1 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -2.64135 2.6402 V: -2.64038 2.63962 P: -0.840435 0.840051 uvp_lukas_test MATLAB/Octave version 4.2.2 Lukas Bystricky flow Estimate the range of velocity and pressure 0 <= X <= 1, 0 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.318305 0.318303 V: -0.991674 -0.000268753 P: 0 0 uvp_poiseuille_test MATLAB/Octave version 4.2.2 Poiseuille flow: Estimate the range of velocity and pressure 0 <= X <= 6, -1 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: 0.010254 0.999996 V: 0 0 P: -11.9749 -0.0220605 uvp_spiral_test MATLAB/Octave version 4.2.2 Spiral flow: Estimate the range of velocity and pressure 0 <= X <= 1, 0 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.0238882 0.023981 V: -0.0240063 0.0239819 P: 0.00296933 0.99743 uvp_taylor_test MATLAB/Octave version 4.2.2 Taylor flow: Estimate the range of velocity and pressure 0.5 <= X <= 2.5, 0.5 <= Y <= 2.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.997425 0.992956 V: -0.998769 0.998312 P: -0.498148 0.498566 uvp_vortex_test MATLAB/Octave version 4.2.2 Vortex flow: Estimate the range of velocity and pressure 0.5 <= X <= 1.5, 0.5 <= Y <= 1.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.998786 0.993636 V: -0.999012 0.999454 P: -0.49917 0.499641 uvp2_cavity_test MATLAB/Octave version 4.2.2 cavity flow Estimate the range of velocity and pressure on the boundary 0 <= X <= 1, 0 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: 0 0.999796 V: -0 -0 P: -2045.33 2.88113 uvp2_exppoly_test MATLAB/Octave version 4.2.2 exppoly flow Estimate the range of velocity and pressure on the boundary 0 <= X <= 1, 0 <= Y <= 1 T = 10 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0 -0 V: 0 0 P: -14022.5 8001.21 uvp2_exptrig_test MATLAB/Octave version 4.2.2 exptrig flow Estimate the range of velocity and pressure on the boundary 0 <= X <= 1, 0 <= Y <= 1 T = 3 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -4.9183e-15 3.01197e-31 V: -3.01197e-31 4.9183e-15 P: -12.7868 7.29616 uvp2_gms_test MATLAB/Octave version 4.2.2 GMS flow Estimate the range of velocity and pressure on the boundary -1 <= X <= 1, -1 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -6.47322e-16 6.47322e-16 V: -6.47322e-16 6.47322e-16 P: -0.841365 1.0305e-16 uvp2_lukas_test MATLAB/Octave version 4.2.2 Lukas Bystricky flow Estimate the range of velocity and pressure on the boundary 0 <= X <= 1, 0 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.31831 0.31831 V: -0.999874 -0 P: 0 0 UVP2_POISEUILLE_TEST MATLAB/Octave version 4.2.2 Poiseuille flow: Estimate the range of velocity and pressure on the boundary 0 <= X <= 6, -1 <= Y <= 1 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: 0 0.999898 V: 0 0 P: -12 -0 uvp2_spiral_test MATLAB/Octave version 4.2.2 Spiral flow: Estimate the range of velocity and pressure on the boundary 0 <= X <= 1, 0 <= Y <= 1 T = 1 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: 0 0 V: -0 -0 P: 0 1 uvp2_taylor_test MATLAB/Octave version 4.2.2 Taylor flow: Estimate the range of velocity and pressure on the boundary 0.5 <= X <= 2.5, 0.5 <= Y <= 2.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.999874 0.999874 V: -0.999874 0.999874 P: 0.000125864 0.5 uvp2_vortex_test MATLAB/Octave version 4.2.2 Vortex flow: Estimate the range of velocity and pressure on the boundary 0.5 <= X <= 1.5, 0.5 <= Y <= 1.5 T = 0 Kinematic viscosity NU = 1 Fluid density RHO = 1 Minimum Maximum U: -0.999874 0.999874 V: -0.999874 0.999874 P: 0.000125864 0.5 navier_stokes_2d_exact_test: Normal end of execution. 27-Aug-2020 16:32:55