FNFT
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Properties of the discretizations for the Korteweg-de Vries equation. More...
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Functions | |
FNFT_UINT | fnft__kdv_discretization_degree (fnft_kdv_discretization_t discretization) |
This routine returns the max degree \(d\) of the polynomials in a single scattering matrix or zero if the discretization is unknown. More... | |
FNFT_REAL | fnft__kdv_discretization_boundary_coeff (fnft_kdv_discretization_t discretization) |
This routine returns the boundary coefficient based on the discretization. More... | |
FNFT_INT | fnft__kdv_discretization_to_akns_discretization (fnft_kdv_discretization_t kdv_discretization, fnft__akns_discretization_t *const akns_discretization) |
This routine returns akns discretization related to the given kdv discretization. More... | |
FNFT_UINT | fnft__kdv_discretization_upsampling_factor (fnft_kdv_discretization_t discretization) |
This routine returns the scaling for effective number of samples based on the discretization. More... | |
FNFT_INT | fnft__kdv_discretization_lambda_to_z (const FNFT_UINT n, const FNFT_REAL eps_t, FNFT_COMPLEX *const vals, fnft_kdv_discretization_t discretization) |
This routine maps \(\lambda\) from continuous-time domain to \(z\) in the discrete-time domain based on the discretization. More... | |
FNFT_INT | fnft__kdv_discretization_z_to_lambda (const FNFT_UINT n, const FNFT_REAL eps_t, FNFT_COMPLEX *const vals, fnft_kdv_discretization_t discretization) |
This routine maps \(z\) from the discrete-time domain to \(\lambda\) in the continuous-time domain based on the discretization. More... | |
Properties of the discretizations for the Korteweg-de Vries equation.