README file: Programs to accompany Technical Report xxx. Conjecture of error boundedness in a new Hermite interpolation problem via splines of odd degree by Fadoua Balabdaoui and Jon A. Wellner Two programs with interpolation of the hinge functions f_u (x) = (x-u)_+^{k-1}: Single run, hinge function: EB-SinglePrint-hinge-post.nb Monte-Carlo program, hinge function: EB-MC-hinge-post.nb (used to compute Table 1, page 8). Two programs with interpolation of the monomial t^(2k): Single print, t^(2k) (monospline): MN-SinglePrint-post.nb Single run with equidistant knots used to produce Table 5 Single run with random knots Monte-Carlo program, t^(2k) (monosplne): MN-MC-post.nb (used to compute Table 3, page 12). Two programs with computation of the perfect spline bound: Single print, perfect spline bound: PS-SinglePrint-post.nb Monte-Carlo program, perfect spline bound: PS-MC-post.nb (used to compute Table 2, page 11) Two programs with computation of Complete and Hermite interpolants of t^(2k) Single print, monospline interpolation with comparison of Complete and Hermite interpolants: MS-SinglePrint-Compl-HermiteCompare-post.nb Monte-Carlo program, monospline interpolation with isolation of knot configurations giving large max error MS-MC-ConfigIsol-post.nb (used to compute Table 4, page 13) Two programs with computation of complete and Hermite interpolants of Shadrin's "null spline" (see Shadrin (2001), Acta Math. 187, pages 63 and 69) Single print, Shadrin's null spline with comparison of Complete and Hermite Interpolants SN-SinglePrint-CandHComp-post.nb Monte-Carlo program, Shadrin's null spline SN-MC-CandHComp-post.nb (not used to produce the paper - supplementary) Written by Fadoua Balabdaoui and Jon Wellner, April 16, 2005