I have an array y[x], x=0,1,2,...,10^6 describing a periodic signal with y(10^6)=y(0), and I want to compute its derivative dy/dx with a fast method.
I tried the spectral difference method, namely
dy/dx = inverse_fourier_transform ( i*k fourier_transform(y)[k] ) .................(1)
and the result is different from (y[x+1]-y[x-1])/2 i.e. suggested by finite difference method.
Which of the two is more accurate, and which is faster? Are there other comparable methods?
Below is an effort to understand the difference of the results:
If one expand both the sum for the fourier_transform and that for the inverse_fourier_transform in (1), one can express dy/dx as a linear combination of y[x] with coefficients a[x]. I computed these coefficients and they seem to go as 1/n (when the length of the array goes to infinity) with n being the distance to where the derivative is examined. Compared to the finite differencing method which uses only the two neighboring points, the spectral difference is highly non-local... Am I correct with this result, and if yes, how to understand this?