| D01BCF
| Calculation of weights and abscissae for Gaussian quadrature rules, general choice of rule |
| D02LZF
| Second-order ordinary differential equations, initial value problem, interpolation for D02LAF |
| D02MZF
| Ordinary differential equations, initial value problem, interpolation for D02M–N routines (all integration methods), natural interpolant |
| D02QZF
| Ordinary differential equations, initial value problem, interpolation for D02QFF or D02QGF |
| D02TYF
| Ordinary differential equations, general nonlinear boundary value problem, interpolation for D02TKF |
| D02UWF
| Interpolate a function from Chebyshev grid to uniform grid using barycentric Lagrange interpolation |
| D02XJF
| Ordinary differential equations, initial value problem, interpolation for D02M–N routines (BLEND and BDF methods only), natural interpolant |
| D02XKF
| Ordinary differential equations, initial value problem, interpolation for D02M–N routines, interpolant |
| D03PYF
| PDEs, spatial interpolation with D03PDF or D03PJF |
| D03PZF
| PDEs, spatial interpolation with D03PCF, D03PEF, D03PFF, D03PHF, D03PKF, D03PLF, D03PPF, D03PRF or D03PSF |
| E01AAF
| Interpolated values, Aitken's technique, unequally spaced data, one variable |
| E01ABF
| Interpolated values, Everett's formula, equally spaced data, one variable |
| E01AEF
| Interpolating functions, polynomial interpolant, data may include derivative values, one variable |
| E01BAF
| Interpolating functions, cubic spline interpolant, one variable |
| E01BEF
| Interpolating functions, monotonicity-preserving, piecewise cubic Hermite, one variable |
| E01BFF
| Interpolated values, interpolant computed by E01BEF, function only, one variable |
| E01BGF
| Interpolated values, interpolant computed by E01BEF, function and first derivative, one variable |
| E01BHF
| Interpolated values, interpolant computed by E01BEF, definite integral, one variable |
| E01DAF
| Interpolating functions, fitting bicubic spline, data on rectangular grid |
| E01RAF
| Interpolating functions, rational interpolant, one variable |
| E01RBF
| Interpolated values, evaluate rational interpolant computed by E01RAF, one variable |
| E01SAF
| Interpolating functions, method of Renka and Cline, two variables |
| E01SBF
| Interpolated values, evaluate interpolant computed by E01SAF, two variables |
| E01SGF
| Interpolating functions, modified Shepard's method, two variables |
| E01SHF
| Interpolated values, evaluate interpolant computed by E01SGF, function and first derivatives, two variables |
| E01TGF
| Interpolating functions, modified Shepard's method, three variables |
| E01THF
| Interpolated values, evaluate interpolant computed by E01TGF, function and first derivatives, three variables |
| E01TKF
| Interpolating functions, modified Shepard's method, four variables |
| E01TLF
| Interpolated values, evaluate interpolant computed by E01TKF, function and first derivatives, four variables |
| E01TMF
| Interpolating functions, modified Shepard's method, five variables |
| E01TNF
| Interpolated values, evaluate interpolant computed by E01TMF, function and first derivatives, five variables |
| E01ZMF
| Interpolating function, modified Shepard's method, dimensions |
| E01ZNF
| Interpolated values, evaluate interpolant computed by E01ZMF, function and first derivatives, dimensions |
| E02AFF
| Least squares polynomial fit, special data points (including interpolation) |
| E02BAF
| Least squares curve cubic spline fit (including interpolation) |
| G05XAF
| Initializes the Brownian bridge generator |
| G05XBF
| Generate paths for a free or non-free Wiener process using the Brownian bridge algorithm |
| G05XCF
| Initializes the generator which backs out the increments of sample paths generated by a Brownian bridge algorithm |
| G05XDF
| Backs out the increments from sample paths generated by a Brownian bridge algorithm |