D03EAF
| Elliptic PDE, Laplace's equation, two-dimensional arbitrary domain |
D03EBF
| Elliptic PDE, solution of finite difference equations by SIP, five-point two-dimensional molecule, iterate to convergence |
D03ECF
| Elliptic PDE, solution of finite difference equations by SIP for seven-point three-dimensional molecule, iterate to convergence |
D03EDF
| Elliptic PDE, solution of finite difference equations by a multigrid technique |
D03EEF
| Discretize a second-order elliptic PDE on a rectangle |
D03FAF
| Elliptic PDE, Helmholtz equation, three-dimensional Cartesian coordinates |
D03MAF
| Triangulation of plane region |
D03NCF
| Finite difference solution of the Black–Scholes equations |
D03NDF
| Analytic solution of the Black–Scholes equations |
D03NEF
| Compute average values for D03NDF |
D03PCF
| General system of parabolic PDEs, method of lines, finite differences, one space variable |
D03PDF
| General system of parabolic PDEs, method of lines, Chebyshev collocation, one space variable |
D03PEF
| General system of first-order PDEs, method of lines, Keller box discretization, one space variable |
D03PFF
| General system of convection-diffusion PDEs with source terms in conservative form, method of lines, upwind scheme using numerical flux function based on Riemann solver, one space variable |
D03PHF
| General system of parabolic PDEs, coupled DAEs, method of lines, finite differences, one space variable |
D03PJF
| General system of parabolic PDEs, coupled DAEs, method of lines, Chebyshev collocation, one space variable |
D03PKF
| General system of first-order PDEs, coupled DAEs, method of lines, Keller box discretization, one space variable |
D03PLF
| General system of convection-diffusion PDEs with source terms in conservative form, coupled DAEs, method of lines, upwind scheme using numerical flux function based on Riemann solver, one space variable |
D03PPF
| General system of parabolic PDEs, coupled DAEs, method of lines, finite differences, remeshing, one space variable |
D03PRF
| General system of first-order PDEs, coupled DAEs, method of lines, Keller box discretization, remeshing, one space variable |
D03PSF
| General system of convection-diffusion PDEs, coupled DAEs, method of lines, upwind scheme, remeshing, one space variable |
D03PUF
| Roe's approximate Riemann solver for Euler equations in conservative form, for use with D03PFF, D03PLF and D03PSF |
D03PVF
| Osher's approximate Riemann solver for Euler equations in conservative form, for use with D03PFF, D03PLF and D03PSF |
D03PWF
| Modified HLL Riemann solver for Euler equations in conservative form, for use with D03PFF, D03PLF and D03PSF |
D03PXF
| Exact Riemann solver for Euler equations in conservative form, for use with D03PFF, D03PLF and D03PSF |
D03PYF
| PDEs, spatial interpolation with D03PDF or D03PJF |
D03PZF
| PDEs, spatial interpolation with D03PCF, D03PEF, D03PFF, D03PHF, D03PKF, D03PLF, D03PPF, D03PRF or D03PSF |
D03RAF
| General system of second-order PDEs, method of lines, finite differences, remeshing, two space variables, rectangular region |
D03RBF
| General system of second-order PDEs, method of lines, finite differences, remeshing, two space variables, rectilinear region |
D03RYF
| Check initial grid data in D03RBF |
D03RZF
| Extract grid data from D03RBF |
D03UAF
| Elliptic PDE, solution of finite difference equations by SIP, five-point two-dimensional molecule, one iteration |
D03UBF
| Elliptic PDE, solution of finite difference equations by SIP, seven-point three-dimensional molecule, one iteration |