TS

  • pseudo-timestepping Solves the time dependent Bratu problem using pseudo-timestepping.
  • pseudo-timestepping

    Solves the time dependent Bratu problem using pseudo-timestepping

  • time-dependent nonlinear problems Solves a time-dependent nonlinear PDE. Uses implicit
    timestepping. Runtime options include:
    -M <xg>, where <xg> = number of grid points
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • time-dependent nonlinear problems
  • time-dependent linear problems Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -time_dependent_bc : Treat the problem as having time-dependent boundary conditions
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • time-dependent linear problems Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • time-dependent linear problems Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • heat equation Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -time_dependent_bc : Treat the problem as having time-dependent boundary conditions
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • heat equation Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • heat equation Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • diffusion equation Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -time_dependent_bc : Treat the problem as having time-dependent boundary conditions
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • diffusion equation Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics
  • diffusion equation Solves a simple time-dependent linear PDE (the heat equation).
    Input parameters include:
    -m <points>, where <points> = number of grid points
    -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side
    -debug : Activate debugging printouts
    -nox : Deactivate x-window graphics