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<html>
<title>TS</title><body bgcolor="FFFFFF">
<h2>TS</h2>
<menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex1.c.html"><CONCEPT>pseudo-timestepping</CONCEPT></A>
<menu>
Solves the time dependent Bratu problem using pseudo-timestepping.</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex1f.F.html"><CONCEPT>pseudo-timestepping</CONCEPT></A>
<menu>
<BR>
   Solves the time dependent Bratu problem using pseudo-timestepping<BR>
<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex2.c.html"><CONCEPT>time-dependent nonlinear problems</CONCEPT></A>
<menu>
Solves a time-dependent nonlinear PDE. Uses implicit<BR>timestepping.  Runtime options include:<BR>
  -M &lt;xg&gt;, where &lt;xg&gt; = number of grid points<BR>
  -debug : Activate debugging printouts<BR>
  -nox   : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex2f.F.html"><CONCEPT>time-dependent nonlinear problems</CONCEPT></A>
<menu>
<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex3.c.html"><CONCEPT>time-dependent linear problems</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex4.c.html"><CONCEPT>time-dependent linear problems</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex5.c.html"><CONCEPT>time-dependent linear problems</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex6.c.html"><CONCEPT>time-dependent linear problems</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex3.c.html"><CONCEPT>heat equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex4.c.html"><CONCEPT>heat equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex5.c.html"><CONCEPT>heat equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex6.c.html"><CONCEPT>heat equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex3.c.html"><CONCEPT>diffusion equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex4.c.html"><CONCEPT>diffusion equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex5.c.html"><CONCEPT>diffusion equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
<LI><A HREF="../../../src/ts/examples/tutorials/ex6.c.html"><CONCEPT>diffusion equation</CONCEPT></A>
<menu>
Solves a simple time-dependent linear PDE (the heat equation).<BR>Input parameters include:<BR>
  -m &lt;points&gt;, where &lt;points&gt; = number of grid points<BR>
  -time_dependent_rhs : Treat the problem as having a time-dependent right-hand side<BR>
  -debug              : Activate debugging printouts<BR>
  -nox                : Deactivate x-window graphics<BR>
</menu>
</menu>
</body>
</html>