--- manual/s_algorithm/text/tracer.tex 2005/07/07 21:36:34 1.20 +++ manual/s_algorithm/text/tracer.tex 2010/08/30 23:09:19 1.26 @@ -1,8 +1,8 @@ -% $Header: /home/ubuntu/mnt/e9_copy/manual/s_algorithm/text/tracer.tex,v 1.20 2005/07/07 21:36:34 jmc Exp $ +% $Header: /home/ubuntu/mnt/e9_copy/manual/s_algorithm/text/tracer.tex,v 1.26 2010/08/30 23:09:19 jmc Exp $ % $Name: $ \section{Tracer equations} -\label{sect:tracer_equations} +\label{sec:tracer_equations} \begin{rawhtml} \end{rawhtml} @@ -18,7 +18,7 @@ described here. \subsection{Time-stepping of tracers: ABII} -\label{sect:tracer_equations_abII} +\label{sec:tracer_equations_abII} \begin{rawhtml} \end{rawhtml} @@ -129,13 +129,13 @@ \section{Linear advection schemes} -\label{sect:tracer-advection} +\label{sec:tracer-advection} \begin{rawhtml} \end{rawhtml} \begin{figure} -\resizebox{5.5in}{!}{\includegraphics{part2/advect-1d-lo.eps}} +\resizebox{5.5in}{!}{\includegraphics{s_algorithm/figs/advect-1d-lo.eps}} \caption{ Comparison of 1-D advection schemes. Courant number is 0.05 with 60 points and solutions are shown for T=1 (one complete period). @@ -153,7 +153,7 @@ \end{figure} \begin{figure} -\resizebox{5.5in}{!}{\includegraphics{part2/advect-1d-hi.eps}} +\resizebox{5.5in}{!}{\includegraphics{s_algorithm/figs/advect-1d-hi.eps}} \caption{ Comparison of 1-D advection schemes. Courant number is 0.89 with 60 points and solutions are shown for T=1 (one complete period). @@ -359,6 +359,7 @@ \section{Non-linear advection schemes} +\label{sec:non-linear_advection_schemes} \begin{rawhtml} \end{rawhtml} @@ -549,7 +550,7 @@ \subsection{Multi-dimensional advection} \begin{figure} -\resizebox{5.5in}{!}{\includegraphics{part2/advect-2d-lo-diag.eps}} +\resizebox{5.5in}{!}{\includegraphics{s_algorithm/figs/advect-2d-lo-diag.eps}} \caption{ Comparison of advection schemes in two dimensions; diagonal advection of a resolved Gaussian feature. Courant number is 0.01 with @@ -570,7 +571,7 @@ \end{figure} \begin{figure} -\resizebox{5.5in}{!}{\includegraphics{part2/advect-2d-mid-diag.eps}} +\resizebox{5.5in}{!}{\includegraphics{s_algorithm/figs/advect-2d-mid-diag.eps}} \caption{ Comparison of advection schemes in two dimensions; diagonal advection of a resolved Gaussian feature. Courant number is 0.27 with @@ -591,7 +592,7 @@ \end{figure} \begin{figure} -\resizebox{5.5in}{!}{\includegraphics{part2/advect-2d-hi-diag.eps}} +\resizebox{5.5in}{!}{\includegraphics{s_algorithm/figs/advect-2d-hi-diag.eps}} \caption{ Comparison of advection schemes in two dimensions; diagonal advection of a resolved Gaussian feature. Courant number is 0.47 with @@ -627,10 +628,10 @@ \tau^{n+1/3} & = & \tau^{n} - \Delta t \left( \frac{1}{\Delta x} \delta_i F^x(\tau^{n}) + \tau^{n} \frac{1}{\Delta x} \delta_i u \right) \\ -\tau^{n+2/3} & = & \tau^{n} +\tau^{n+2/3} & = & \tau^{n+1/3} - \Delta t \left( \frac{1}{\Delta y} \delta_j F^y(\tau^{n+1/3}) + \tau^{n} \frac{1}{\Delta y} \delta_i v \right) \\ -\tau^{n+3/3} & = & \tau^{n} +\tau^{n+3/3} & = & \tau^{n+2/3} - \Delta t \left( \frac{1}{\Delta r} \delta_k F^x(\tau^{n+2/3}) + \tau^{n} \frac{1}{\Delta r} \delta_i w \right) \end{eqnarray} @@ -664,9 +665,15 @@ \end{minipage} } +\begin{figure} +\resizebox{3.5in}{!}{\includegraphics{s_algorithm/figs/multiDim_CS.eps}} +\caption{Muti-dimensional advection time-stepping with Cubed-Sphere topology +\label{fig:advect-multidim_cs} +} +\end{figure} \section{Comparison of advection schemes} -\label{sect:tracer_advection_schemes} +\label{sec:tracer_advection_schemes} \begin{rawhtml} \end{rawhtml} @@ -678,14 +685,17 @@ Advection Scheme & code & use & use Multi- & Stencil & comments \\ & & A.B. & dimension & (1 dim) & \\ \hline \hline + $1^{rst}$order upwind & 1 & No & Yes & 3 pts & linear/$\tau$, non-linear/v\\ + \hline centered $2^{nd}$order & 2 & Yes & No & 3 pts & linear \\ \hline $3^{rd}$order upwind & 3 & Yes & No & 5 pts & linear/$\tau$\\ \hline centered $4^{th}$order & 4 & Yes & No & 5 pts & linear \\ \hline \hline -% Lax-Wendroff & 10 & No & Yes & 3 pts & linear/tracer, non-linear/flow\\ -% \hline + $2^{nd}$order DST (Lax-Wendroff) & 20 & + No & Yes & 3 pts & linear/$\tau$, non-linear/v\\ + \hline $3^{rd}$order DST & 30 & No & Yes & 5 pts & linear/$\tau$, non-linear/v\\ \hline \hline $2^{nd}$order Flux Limiters & 77 & No & Yes & 5 pts & non-linear \\