| Routine Name |
Mark of Introduction |
Purpose |
| D02AGF
Example Text Example Plot |
2 | Ordinary differential equations, boundary value problem, shooting and matching technique, allowing interior matching point, general parameters to be determined |
| D02BGF
Example Text |
7 | Ordinary differential equations, initial value problem, Runge–Kutta–Merson method, until a component attains given value (simple driver) |
| D02BHF
Example Text |
7 | Ordinary differential equations, initial value problem, Runge–Kutta–Merson method, until function of solution is zero (simple driver) |
| D02BJF
Example Text Example Plot |
18 | Ordinary differential equations, initial value problem, Runge–Kutta method, until function of solution is zero, integration over range with intermediate output (simple driver) |
| D02CJF
Example Text Example Plot |
13 | Ordinary differential equations, initial value problem, Adams method, until function of solution is zero, intermediate output (simple driver) |
| D02EJF
Example Text Example Plot |
12 | Ordinary differential equations, stiff initial value problem, backward diffential formulae method, until function of solution is zero, intermediate output (simple driver) |
| D02GAF
Example Text Example Plot |
8 | Ordinary differential equations, boundary value problem, finite difference technique with deferred correction, simple nonlinear problem |
| D02GBF
Example Text Example Plot |
8 | Ordinary differential equations, boundary value problem, finite difference technique with deferred correction, general linear problem |
| D02HAF
Example Text Example Plot |
8 | Ordinary differential equations, boundary value problem, shooting and matching, boundary values to be determined |
| D02HBF
Example Text Example Plot |
8 | Ordinary differential equations, boundary value problem, shooting and matching, general parameters to be determined |
| D02JAF
Example Text Example Plot |
8 | Ordinary differential equations, boundary value problem, collocation and least-squares, single nth-order linear equation |
| D02JBF
Example Text Example Plot |
8 | Ordinary differential equations, boundary value problem, collocation and least-squares, system of first-order linear equations |
| D02KAF
Example Text |
7 | Second-order Sturm–Liouville problem, regular system, finite range, eigenvalue only |
| D02KDF
Example Text |
7 | Second-order Sturm–Liouville problem, regular/singular system, finite/infinite range, eigenvalue only, user-specified break-points |
| D02KEF
Example Text Example Plot |
8 | Second-order Sturm–Liouville problem, regular/singular system, finite/infinite range, eigenvalue and eigenfunction, user-specified break-points |
| D02LAF
Example Text Example Plot |
13 | Second-order ordinary differential equations, initial value problem, Runge–Kutta–Nystrom method |
| D02LXF | 13 | Second-order ordinary differential equations, initial value problem, setup for D02LAF |
| D02LYF | 13 | Second-order ordinary differential equations, initial value problem, diagnostics for D02LAF |
| D02LZF | 13 | Second-order ordinary differential equations, initial value problem, interpolation for D02LAF |
| D02MCF | 22 | Implicit ordinary differential equations/DAEs, initial value problem, DASSL method continuation for D02NEF |
| D02MVF
Example Text Example Plot |
14 | Ordinary differential equations, initial value problem, DASSL method, setup for D02M–N routines |
| D02MWF
Example Text |
22 | Implicit ordinary differential equations/DAEs, initial value problem, setup for D02NEF |
| D02MZF
Example Text |
14 | Ordinary differential equations, initial value problem, interpolation for D02M–N routines, natural interpolant |
| D02NBF
Example Text Example Plot |
12 | Explicit ordinary differential equations, stiff initial value problem, full Jacobian (comprehensive) |
| D02NCF
Example Text Example Plot |
12 | Explicit ordinary differential equations, stiff initial value problem, banded Jacobian (comprehensive) |
| D02NDF
Example Text Example Plot |
12 | Explicit ordinary differential equations, stiff initial value problem, sparse Jacobian (comprehensive) |
| D02NEF
Example Text |
22 | Implicit ordinary differential equations/DAEs, initial value problem, DASSL method integrator |
| D02NGF
Example Text Example Plot |
12 | Implicit/algebraic ordinary differential equations, stiff initial value problem, full Jacobian (comprehensive) |
| D02NHF
Example Text |
12 | Implicit/algebraic ordinary differential equations, stiff initial value problem, banded Jacobian (comprehensive) |
| D02NJF
Example Text Example Plot |
12 | Implicit/algebraic ordinary differential equations, stiff initial value problem, sparse Jacobian (comprehensive) |
| D02NMF
Example Text Example Plot |
12 | Explicit ordinary differential equations, stiff initial value problem (reverse communication, comprehensive) |
| D02NNF
Example Text |
12 | Implicit/algebraic ordinary differential equations, stiff initial value problem (reverse communication, comprehensive) |
| D02NPF | 22 | Implicit ordinary differential equations/DAEs, initial value problem linear algebra setup routine for D02NEF |
| D02NRF | 12 | Ordinary differential equations, initial value problem, for use with D02M–N routines, sparse Jacobian, enquiry routine |
| D02NSF | 12 | Ordinary differential equations, initial value problem, for use with D02M–N routines, full Jacobian, linear algebra set up |
| D02NTF | 12 | Ordinary differential equations, initial value problem, for use with D02M–N routines, banded Jacobian, linear algebra set up |
| D02NUF | 12 | Ordinary differential equations, initial value problem, for use with D02M–N routines, sparse Jacobian, linear algebra set up |
| D02NVF | 12 | Ordinary differential equations, initial value problem, backward diffential formulae method, setup for D02M–N routines |
| D02NWF | 12 | Ordinary differential equations, initial value problem, Blend method, setup for D02M–N routines |
| D02NXF | 12 | Ordinary differential equations, initial value problem, sparse Jacobian, linear algebra diagnostics, for use with D02M–N routines |
| D02NYF | 12 | Ordinary differential equations, initial value problem, integrator diagnostics, for use with D02M–N routines |
| D02NZF | 12 | Ordinary differential equations, initial value problem, setup for continuation calls to integrator, for use with D02M–N routines |
| D02PCF
Example Text Example Plot |
16 | Ordinary differential equations, initial value problem, Runge–Kutta method, integration over range with output |
| D02PDF
Example Text Example Plot |
16 | Ordinary differential equations, initial value problem, Runge–Kutta method, integration over one step |
| D02PVF | 16 | Ordinary differential equations, initial value problem, setup for D02PCF and D02PDF |
| D02PWF
Example Text Example Plot |
16 | Ordinary differential equations, initial value problem, resets end of range for D02PDF |
| D02PXF
Example Text Example Plot |
16 | Ordinary differential equations, initial value problem, interpolation for D02PDF |
| D02PYF | 16 | Ordinary differential equations, initial value problem, integration diagnostics for D02PCF and D02PDF |
| D02PZF
Example Text Example Plot |
16 | Ordinary differential equations, initial value problem, error assessment diagnostics for D02PCF and D02PDF |
| D02QFF
Example Text |
13 | Ordinary differential equations, initial value problem, Adams method with root-finding (forward communication, comprehensive) |
| D02QGF
Example Text Example Plot |
13 | Ordinary differential equations, initial value problem, Adams method with root-finding (reverse communication, comprehensive) |
| D02QWF | 13 | Ordinary differential equations, initial value problem, setup for D02QFF and D02QGF |
| D02QXF | 13 | Ordinary differential equations, initial value problem, diagnostics for D02QFF and D02QGF |
| D02QYF | 13 | Ordinary differential equations, initial value problem, root-finding diagnostics for D02QFF and D02QGF |
| D02QZF
Example Text Example Plot |
13 | Ordinary differential equations, initial value problem, interpolation for D02QFF or D02QGF |
| D02RAF
Example Text Example Plot |
8 | Ordinary differential equations, general nonlinear boundary value problem, finite difference technique with deferred correction, continuation facility |
| D02SAF
Example Text Example Plot |
8 | Ordinary differential equations, boundary value problem, shooting and matching technique, subject to extra algebraic equations, general parameters to be determined |
| D02TGF
Example Text Example Plot |
8 | nth-order linear ordinary differential equations, boundary value problem, collocation and least-squares |
| D02TKF
Example Text Example Plot |
17 | Ordinary differential equations, general nonlinear boundary value problem, collocation technique |
| D02TVF
Example Text Example Plot |
17 | Ordinary differential equations, general nonlinear boundary value problem, setup for D02TKF |
| D02TXF
Example Text Example Plot |
17 | Ordinary differential equations, general nonlinear boundary value problem, continuation facility for D02TKF |
| D02TYF
Example Text Example Plot |
17 | Ordinary differential equations, general nonlinear boundary value problem, interpolation for D02TKF |
| D02TZF
Example Text Example Plot |
17 | Ordinary differential equations, general nonlinear boundary value problem, diagnostics for D02TKF |
| D02XJF | 12 | Ordinary differential equations, initial value problem, interpolation for D02M–N routines, natural interpolant |
| D02XKF | 12 | Ordinary differential equations, initial value problem, interpolation for D02M–N routines, C1 interpolant |
| D02ZAF
Example Text |
12 | Ordinary differential equations, initial value problem, weighted norm of local error estimate for D02M–N routines |