nag_sum_fft_complex_3d (c06pxc) Example Program Results Original data values X(i,j,k) for k = 1 ( 1.000, 0.000) ( 0.994,-0.111) ( 0.903,-0.430) ( 0.500, 0.500) ( 0.494, 0.111) ( 0.403, 0.430) X(i,j,k) for k = 2 ( 0.999,-0.040) ( 0.989,-0.151) ( 0.885,-0.466) ( 0.499, 0.040) ( 0.489, 0.151) ( 0.385, 0.466) X(i,j,k) for k = 3 ( 0.987,-0.159) ( 0.963,-0.268) ( 0.823,-0.568) ( 0.487, 0.159) ( 0.463, 0.268) ( 0.323, 0.568) X(i,j,k) for k = 4 ( 0.936,-0.352) ( 0.891,-0.454) ( 0.694,-0.720) ( 0.436, 0.352) ( 0.391, 0.454) ( 0.194, 0.720) Components of discrete Fourier transforms X(i,j,k) for k = 1 ( 3.292, 0.102) ( 0.143,-0.086) ( 0.143, 0.290) ( 1.225,-1.620) ( 0.424, 0.320) (-0.424, 0.320) X(i,j,k) for k = 2 ( 0.051,-0.042) ( 0.016, 0.153) (-0.050, 0.118) ( 0.355, 0.083) ( 0.020,-0.115) ( 0.007,-0.080) X(i,j,k) for k = 3 ( 0.113, 0.102) (-0.024, 0.127) (-0.024, 0.077) ( 0.000, 0.162) ( 0.013,-0.091) (-0.013,-0.091) X(i,j,k) for k = 4 ( 0.051, 0.246) (-0.050, 0.086) ( 0.016, 0.051) (-0.355, 0.083) (-0.007,-0.080) (-0.020,-0.115) Original data as restored by inverse transform X(i,j,k) for k = 1 ( 1.000,-0.000) ( 0.994,-0.111) ( 0.903,-0.430) ( 0.500, 0.500) ( 0.494, 0.111) ( 0.403, 0.430) X(i,j,k) for k = 2 ( 0.999,-0.040) ( 0.989,-0.151) ( 0.885,-0.466) ( 0.499, 0.040) ( 0.489, 0.151) ( 0.385, 0.466) X(i,j,k) for k = 3 ( 0.987,-0.159) ( 0.963,-0.268) ( 0.823,-0.568) ( 0.487, 0.159) ( 0.463, 0.268) ( 0.323, 0.568) X(i,j,k) for k = 4 ( 0.936,-0.352) ( 0.891,-0.454) ( 0.694,-0.720) ( 0.436, 0.352) ( 0.391, 0.454) ( 0.194, 0.720)