16 October 2012 1:24:30.692 PM SHEPARD_INTERP_ND_TEST: FORTRAN90 version Test the SHEPARD_INTERP_ND library. The R8LIB library is needed. This test also needs the TEST_INTERP_ND library. TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.117522E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.506728E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.256958E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.301658E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.472496E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.419717E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.351696E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.336490E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.253547E-03 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.169376E-03 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.149062E-03 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.154180E-03 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.289499E-04 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.259249E-04 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.213948E-04 TEST01: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.200691E-04 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.163525E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.672628E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.392753E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.445235E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.287417E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.264877E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.211396E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.188186E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.633563E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.421590E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.372955E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.384781E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.199775E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.178935E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.147710E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.139187E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.104323E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.660193E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.560669E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.609941E-02 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.172363E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.159607E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.138759E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.125525E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.712269E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.485404E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.456390E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.532607E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.785209E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.785209E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.785209E-01 TEST01: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.785209E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.235326E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.877185E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.590164E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.838801E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.974289E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.767847E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.285036E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 1 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.154455E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.641477E-04 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.323504E-04 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.234221E-04 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.312580E-04 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.629828E-05 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.513576E-05 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.226425E-05 TEST02: Interpolate data from TEST_INTERP_ND problem # 2 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.117851E-05 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.310234E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.106184E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.103127E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.144522E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.380484E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.299845E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.988496E-04 TEST02: Interpolate data from TEST_INTERP_ND problem # 3 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.140923E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.161270E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.804955E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.602276E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.806064E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.436972E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.356584E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.157245E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 4 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.840341E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.269232E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.153273E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.102188E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.122883E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.359833E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.299174E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.145333E-02 TEST02: Interpolate data from TEST_INTERP_ND problem # 5 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.805012E-03 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 1.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.175182E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 2.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.128424E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 4.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.127093E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 8.00000 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.142476E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 1.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.153603E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 2.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.142834E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 4.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.120435E-01 TEST02: Interpolate data from TEST_INTERP_ND problem # 6 using Shepard interpolation with P = 8.00000 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0.00000 L2 approximation error averaged per 1000 samples = 0.151405E-01 SHEPARD_INTERP_ND_TEST: Normal end of execution. 16 October 2012 1:24:39.009 PM