12 April 2020 04:33:12 PM SHEPARD_INTERP_ND_TEST: C++ 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 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0117522 TEST01: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 2 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00506728 TEST01: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 4 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00256958 TEST01: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 8 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00301658 TEST01: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 1 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0472496 TEST01: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 2 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0419717 TEST01: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 4 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0351696 TEST01: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 8 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.033649 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 1 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000253547 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 2 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000169376 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 4 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000149062 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 8 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00015418 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 1 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 2.89499e-05 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 2 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 2.59249e-05 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 4 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 2.13948e-05 TEST01: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 8 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 2.00691e-05 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 1 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0163525 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 2 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00672628 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 4 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00392753 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 8 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00445235 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 1 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00287417 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 2 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00264877 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 4 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00211396 TEST01: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 8 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00188186 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 1 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00633563 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 2 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0042159 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 4 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00372955 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 8 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00384781 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 1 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0199775 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 2 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0178935 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 4 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.014771 TEST01: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 8 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0139187 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 1 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0104323 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 2 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00660193 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 4 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00560669 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 8 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00609941 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 1 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0172363 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 2 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0159607 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 4 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0138759 TEST01: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 8 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0125525 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 1 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0712269 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 2 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0485404 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 4 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.045639 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 8 spatial dimension M = 2 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0532607 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 1 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0785209 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 2 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0785209 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 4 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0785209 TEST01: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 8 spatial dimension M = 5 and an irregular grid of ND = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0785209 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 1 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00235326 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 2 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000877185 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 4 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000590164 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 8 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000838801 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 1 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00974289 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 2 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00767847 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 4 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00285036 TEST02: Interpolate data from TEST_INTERP_ND problem #1 using Shepard interpolation with P = 8 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00154455 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 1 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 6.41477e-05 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 2 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 3.23504e-05 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 4 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 2.34221e-05 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 8 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 3.1258e-05 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 1 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 6.29828e-06 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 2 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 5.13576e-06 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 4 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 2.26425e-06 TEST02: Interpolate data from TEST_INTERP_ND problem #2 using Shepard interpolation with P = 8 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 1.17851e-06 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 1 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00310234 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 2 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00106184 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 4 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00103127 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 8 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00144522 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 1 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000380484 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 2 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000299845 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 4 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 9.88496e-05 TEST02: Interpolate data from TEST_INTERP_ND problem #3 using Shepard interpolation with P = 8 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000140923 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 1 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0016127 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 2 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000804955 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 4 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000602276 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 8 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000806064 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 1 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00436972 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 2 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00356584 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 4 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00157245 TEST02: Interpolate data from TEST_INTERP_ND problem #4 using Shepard interpolation with P = 8 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000840341 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 1 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00269232 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 2 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00153273 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 4 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00102188 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 8 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00122883 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 1 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00359833 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 2 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00299174 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 4 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.00145333 TEST02: Interpolate data from TEST_INTERP_ND problem #5 using Shepard interpolation with P = 8 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.000805012 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 1 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0175182 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 2 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0128424 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 4 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0127093 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 8 spatial dimension M = 2 and a regular grid of N1D^M = 25 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0142476 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 1 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0153603 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 2 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0142834 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 4 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0120435 TEST02: Interpolate data from TEST_INTERP_ND problem #6 using Shepard interpolation with P = 8 spatial dimension M = 5 and a regular grid of N1D^M = 3125 data points. L2 interpolation error averaged per interpolant node = 0 L2 approximation error averaged per 1000 samples = 0.0151405 SHEPARD_INTERP_ND_TEST: Normal end of execution. 12 April 2020 04:33:28 PM