5 March 2015 9:12:19.208 PM NS2DE_PRB FORTRAN77 version Test the NS2DE library. UVP_TAYLOR_TEST Taylor Vortex Flow Estimate the range of velocity and pressure at the initial time T = 0, using a region that is the square centered at (1.5,1.5) with "radius" 1.0, Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum U: -0.997425 0.992956 V: -0.998769 0.998312 P: -0.498148 0.498566 UVP_TAYLOR_TEST2 Taylor Vortex Flow Estimate the range of velocity and pressure along the boundary at the initial time T = 0, using a region that is the square centered at (1.5,1.5) with "radius" 1.0, Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum U: -0.999874 0.999874 V: -0.999874 0.999874 P: 0.125864E-03 0.500000 RHS_TAYLOR_TEST Taylor Vortex Flow Sample the Navier-Stokes right hand sides at the initial time T = 0, using a region that is the square centered at (1.5,1.5) with "radius" 1.0, Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum F: 0.00000 0.00000 G: 0.00000 0.00000 H: 0.00000 0.00000 RESID_TAYLOR_TEST Taylor Vortex Flow Sample the Navier-Stokes residuals at the initial time T = 0, using a region that is the square centered at (1.5,1.5) with "radius" 1.0, Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum Ur: 0.00000 0.355271E-14 Vr: 0.00000 0.355271E-14 Pr: 0.00000 0.00000 GNUPLOT_TAYLOR_TEST: Taylor Vortex Flow Generate a Taylor vortex velocity field on a regular grid. Store in GNUPLOT data and command files. Data written to "taylor_data.txt". Commands written to "taylor_commands.txt". PARAMETER_TAYLOR_TEST Taylor Vortex Flow Monitor solution norms over time for varous values of NU, RHO. RHO affects the pressure scaling. RHO NU T ||U|| ||V|| ||P|| 1.000 1.000 0.0000 0.1571E-01 0.1599E-01 0.7905E-02 1.000 1.000 0.2000 0.3032E-03 0.3086E-03 0.2943E-05 1.000 1.000 0.4000 0.5851E-05 0.5955E-05 0.1096E-08 1.000 1.000 0.6000 0.1129E-06 0.1149E-06 0.4081E-12 1.000 1.000 0.8000 0.2179E-08 0.2217E-08 0.1519E-15 1.000 1.000 1.0000 0.4204E-10 0.4278E-10 0.5658E-19 0.1000E-01 1.000 0.0000 0.1571E-01 0.1599E-01 0.7905E-04 0.1000E-01 1.000 0.2000 0.3032E-03 0.3086E-03 0.2943E-07 0.1000E-01 1.000 0.4000 0.5851E-05 0.5955E-05 0.1096E-10 0.1000E-01 1.000 0.6000 0.1129E-06 0.1149E-06 0.4081E-14 0.1000E-01 1.000 0.8000 0.2179E-08 0.2217E-08 0.1519E-17 0.1000E-01 1.000 1.0000 0.4204E-10 0.4278E-10 0.5658E-21 0.1000E-03 1.000 0.0000 0.1571E-01 0.1599E-01 0.7905E-06 0.1000E-03 1.000 0.2000 0.3032E-03 0.3086E-03 0.2943E-09 0.1000E-03 1.000 0.4000 0.5851E-05 0.5955E-05 0.1096E-12 0.1000E-03 1.000 0.6000 0.1129E-06 0.1149E-06 0.4081E-16 0.1000E-03 1.000 0.8000 0.2179E-08 0.2217E-08 0.1519E-19 0.1000E-03 1.000 1.0000 0.4204E-10 0.4278E-10 0.5658E-23 NU affects the time scaling. RHO NU T ||U|| ||V|| ||P|| 1.000 1.000 0.0000 0.1571E-01 0.1599E-01 0.7905E-02 1.000 1.000 0.2000 0.3032E-03 0.3086E-03 0.2943E-05 1.000 1.000 0.4000 0.5851E-05 0.5955E-05 0.1096E-08 1.000 1.000 0.6000 0.1129E-06 0.1149E-06 0.4081E-12 1.000 1.000 0.8000 0.2179E-08 0.2217E-08 0.1519E-15 1.000 1.000 1.0000 0.4204E-10 0.4278E-10 0.5658E-19 1.000 0.1000 0.0000 0.1571E-01 0.1599E-01 0.7905E-02 1.000 0.1000 0.2000 0.1059E-01 0.1078E-01 0.3589E-02 1.000 0.1000 0.4000 0.7135E-02 0.7261E-02 0.1630E-02 1.000 0.1000 0.6000 0.4808E-02 0.4893E-02 0.7399E-03 1.000 0.1000 0.8000 0.3240E-02 0.3297E-02 0.3360E-03 1.000 0.1000 1.0000 0.2183E-02 0.2222E-02 0.1525E-03 1.000 0.1000E-01 0.0000 0.1571E-01 0.1599E-01 0.7905E-02 1.000 0.1000E-01 0.2000 0.1511E-01 0.1537E-01 0.7305E-02 1.000 0.1000E-01 0.4000 0.1452E-01 0.1478E-01 0.6750E-02 1.000 0.1000E-01 0.6000 0.1396E-01 0.1421E-01 0.6238E-02 1.000 0.1000E-01 0.8000 0.1342E-01 0.1366E-01 0.5764E-02 1.000 0.1000E-01 1.0000 0.1290E-01 0.1313E-01 0.5327E-02 1.000 0.1000E-02 0.0000 0.1571E-01 0.1599E-01 0.7905E-02 1.000 0.1000E-02 0.2000 0.1565E-01 0.1593E-01 0.7843E-02 1.000 0.1000E-02 0.4000 0.1559E-01 0.1587E-01 0.7781E-02 1.000 0.1000E-02 0.6000 0.1553E-01 0.1580E-01 0.7720E-02 1.000 0.1000E-02 0.8000 0.1547E-01 0.1574E-01 0.7659E-02 1.000 0.1000E-02 1.0000 0.1541E-01 0.1568E-01 0.7599E-02 UVP_SPIRAL_TEST Spiral Flow Estimate the range of velocity and pressure at the initial time T = 0, using a region that is the unit square. Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum U: -0.119441E-01 0.119905E-01 V: -0.120032E-01 0.119910E-01 P: 0.296933E-02 0.997430 UVP_SPIRAL_TEST2 Spiral Flow Estimate the range of velocity and pressure along the boundary at the initial time T = 0, using a region that is the unit square. Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum U: 0.00000 0.00000 V: -0.00000 -0.00000 P: 0.00000 1.00000 RHS_SPIRAL_TEST Spiral Flow Sample the Navier-Stokes right hand sides at the initial time T = 0, in the unit square. Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum F: -0.761154 0.763694 G: 0.235860 1.76464 H: 0.00000 0.00000 RESID_SPIRAL_TEST Spiral Flow Sample the Navier-Stokes residuals at the initial time T = 0, in the unit square. Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum Ur: 0.00000 0.00000 Vr: 0.00000 0.00000 Pr: 0.00000 0.00000 GNUPLOT_SPIRAL_TEST: Spiral Flow Generate a velocity field on a regular grid. Store in GNUPLOT data and command files. Data written to "spiral_data.txt". Commands written to "spiral_commands.txt". PARAMETER_SPIRAL_TEST Spiral Flow Monitor solution norms over time for varous values of NU, RHO. RHO affects the pressure scaling. RHO NU T ||U|| ||V|| ||P|| 1.000 1.000 0.0000 0.1767E-03 0.1712E-03 0.1798E-01 1.000 1.000 0.2000 0.2121E-03 0.2055E-03 0.1798E-01 1.000 1.000 0.4000 0.2474E-03 0.2397E-03 0.1798E-01 1.000 1.000 0.6000 0.2828E-03 0.2740E-03 0.1798E-01 1.000 1.000 0.8000 0.3181E-03 0.3082E-03 0.1798E-01 1.000 1.000 1.0000 0.3534E-03 0.3425E-03 0.1798E-01 0.1000E-01 1.000 0.0000 0.1767E-03 0.1712E-03 0.1798E-03 0.1000E-01 1.000 0.2000 0.2121E-03 0.2055E-03 0.1798E-03 0.1000E-01 1.000 0.4000 0.2474E-03 0.2397E-03 0.1798E-03 0.1000E-01 1.000 0.6000 0.2828E-03 0.2740E-03 0.1798E-03 0.1000E-01 1.000 0.8000 0.3181E-03 0.3082E-03 0.1798E-03 0.1000E-01 1.000 1.0000 0.3534E-03 0.3425E-03 0.1798E-03 0.1000E-03 1.000 0.0000 0.1767E-03 0.1712E-03 0.1798E-05 0.1000E-03 1.000 0.2000 0.2121E-03 0.2055E-03 0.1798E-05 0.1000E-03 1.000 0.4000 0.2474E-03 0.2397E-03 0.1798E-05 0.1000E-03 1.000 0.6000 0.2828E-03 0.2740E-03 0.1798E-05 0.1000E-03 1.000 0.8000 0.3181E-03 0.3082E-03 0.1798E-05 0.1000E-03 1.000 1.0000 0.3534E-03 0.3425E-03 0.1798E-05 NU affects the time scaling. RHO NU T ||U|| ||V|| ||P|| 1.000 1.000 0.0000 0.1767E-03 0.1712E-03 0.1798E-01 1.000 1.000 0.2000 0.2121E-03 0.2055E-03 0.1798E-01 1.000 1.000 0.4000 0.2474E-03 0.2397E-03 0.1798E-01 1.000 1.000 0.6000 0.2828E-03 0.2740E-03 0.1798E-01 1.000 1.000 0.8000 0.3181E-03 0.3082E-03 0.1798E-01 1.000 1.000 1.0000 0.3534E-03 0.3425E-03 0.1798E-01 1.000 0.1000 0.0000 0.1767E-03 0.1712E-03 0.1798E-01 1.000 0.1000 0.2000 0.1803E-03 0.1747E-03 0.1798E-01 1.000 0.1000 0.4000 0.1838E-03 0.1781E-03 0.1798E-01 1.000 0.1000 0.6000 0.1873E-03 0.1815E-03 0.1798E-01 1.000 0.1000 0.8000 0.1909E-03 0.1849E-03 0.1798E-01 1.000 0.1000 1.0000 0.1944E-03 0.1884E-03 0.1798E-01 1.000 0.1000E-01 0.0000 0.1767E-03 0.1712E-03 0.1798E-01 1.000 0.1000E-01 0.2000 0.1771E-03 0.1716E-03 0.1798E-01 1.000 0.1000E-01 0.4000 0.1774E-03 0.1719E-03 0.1798E-01 1.000 0.1000E-01 0.6000 0.1778E-03 0.1723E-03 0.1798E-01 1.000 0.1000E-01 0.8000 0.1781E-03 0.1726E-03 0.1798E-01 1.000 0.1000E-01 1.0000 0.1785E-03 0.1730E-03 0.1798E-01 1.000 0.1000E-02 0.0000 0.1767E-03 0.1712E-03 0.1798E-01 1.000 0.1000E-02 0.2000 0.1768E-03 0.1713E-03 0.1798E-01 1.000 0.1000E-02 0.4000 0.1768E-03 0.1713E-03 0.1798E-01 1.000 0.1000E-02 0.6000 0.1768E-03 0.1714E-03 0.1798E-01 1.000 0.1000E-02 0.8000 0.1769E-03 0.1714E-03 0.1798E-01 1.000 0.1000E-02 1.0000 0.1769E-03 0.1714E-03 0.1798E-01 UVP_LUCAS_TEST Lucas Bystricky Flow Estimate the range of velocity and pressure at the initial time T = 0, using a region that is the square centered at (1.5,1.5) with "radius" 1.0, Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum U: -0.318305 0.318303 V: -0.991674 -0.268753E-03 P: 0.00000 0.00000 UVP_LUCAS_TEST2 Lucas Bystricky Flow Estimate the range of velocity and pressure along the boundary at the initial time T = 0, using a region that is the square centered at (1.5,1.5) with "radius" 1.0, Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum U: -0.318310 0.318310 V: -0.999874 -0.00000 P: 0.00000 0.00000 RHS_LUCAS_TEST Lucas Bystricky Flow Sample the Navier-Stokes right hand sides at the initial time T = 0, in the unit square. Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum F: -3.15750 3.15751 G: -8.79482 0.935149 H: 0.00000 0.00000 RESID_LUCAS_TEST Lucas Bystricky Flow Sample the Navier-Stokes residuals at the initial time T = 0, in the unit square. Kinematic viscosity NU = 1.00000 Fluid density RHO = 1.00000 Minimum Maximum Ur: 0.00000 0.00000 Vr: 0.00000 0.177636E-14 Pr: 0.00000 0.00000 GNUPLOT_LUCAS_TEST: Lucas Bystricky Flow Generate a velocity field on a regular grid. Store in GNUPLOT data and command files. Data written to "lucas_data.txt". Commands written to "lucas_commands.txt". NS2DE_TEST Normal end of execution. 5 March 2015 9:12:19.231 PM