From 7dfcc480ba1e19bd3232349fc733caef94034292 Mon Sep 17 00:00:00 2001 From: stainer_t Date: Mon, 8 Sep 2025 13:48:49 +0200 Subject: Initial commit from Polytechnique Montreal --- doc/IGE344/SectDLEAK.tex | 89 ++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 89 insertions(+) create mode 100644 doc/IGE344/SectDLEAK.tex (limited to 'doc/IGE344/SectDLEAK.tex') diff --git a/doc/IGE344/SectDLEAK.tex b/doc/IGE344/SectDLEAK.tex new file mode 100644 index 0000000..27b41f6 --- /dev/null +++ b/doc/IGE344/SectDLEAK.tex @@ -0,0 +1,89 @@ +\subsection{The {\tt DLEAK:} module} + +The {\tt DLEAK:} module is used to create a delta {\sc macrolib} (type {\tt L\_MACROLIB}) with respect to leakage information. +Derivatives of leakage-related information (recovered from the input {\sc macrolib}) are stored in the {\tt STEP} heteroneneous list components +present in the output {\sc macrolib}. Derivatives can be taken with respect to a leakage parameter itself +($D_{g,i}$ or $\Sigma_{1,g,i}$) or relative to factor $\mu$ in $\mu D_{g,i}$ or $\mu\Sigma_{1,g,i}$. Note that factor $\mu$ is not a +SPH factor because it multiplies only leakage-related parameters. One component of the +{\tt STEP} heteroneneous list is created for each value of energy group $g$ and for each value of mixture $i$. + +\vskip 0.08cm + +The calling specifications are: + +\begin{DataStructure}{Structure \dstr{DLEAK:}} +\dusa{DMACRO} \dusa{OPTIM} \moc{:=} \moc{DLEAK:} \dusa{MACRO} \moc{::} \dstr{dleak\_data} +\end{DataStructure} + +\goodbreak +\noindent where + +\begin{ListeDeDescription}{mmmmmm} + +\item[\dusa{DMACRO}] {\tt character*12} name of a {\sc lcm} object (type {\tt L\_MACROLIB}) containing the delta {\sc macrolib} +information. \dusa{DMACRO} is created by the module. A {\tt STEP} heteroneneous list is present in \dusa{DMACRO}. + +\item[\dusa{OPTIM}] {\tt character*12} name of a second {\sc lcm} object (type {\tt L\_OPTIMIZE}) created by the module. Leakage-related parameters are saved +in the the control variable record {\tt 'VAR-VALUE'} of \dusa{OPTIM} object. Input data defined in Sect.~\ref{sect:dleak_data} is +also saved in \dusa{OPTIM} object. + +\item[\dusa{MACRO}] {\tt character*12} name of the {\sc lcm} object (type {\tt L\_MACROLIB}) containing the input {\sc macrolib}. + +\item[\dstr{dleak\_data}] structure containing the data to module {\tt DLEAK:} (see Sect.~\ref{sect:dleak_data}). + +\end{ListeDeDescription} + +\vskip 0.2cm + +\subsubsection{Data input for module {\tt DLEAK:}}\label{sect:dleak_data} + +\begin{DataStructure}{Structure \dstr{dleak\_data}} +$[$ \moc{EDIT} \dusa{iprint} $]$ \\ +\moc{TYPE} $\{$ \moc{DIFF} $|$ \moc{NTOT1} $\}$ \\ +\moc{DELTA} $\{$ \moc{VALUE} $|$ \moc{FACTOR} $\}$ \\ +$[$ \moc{MIXMIN} \dusa{ibm1} $]~[$ \moc{MIXMAX} \dusa{ibm2} $]$\\ +$[$ \moc{GRPMIN} \dusa{ngr1} $]~[$ \moc{GRPMAX} \dusa{ngr2} $]$\\ +; +\end{DataStructure} + +\noindent where +\begin{ListeDeDescription}{mmmmmm} + +\item[\moc{EDIT}] keyword used to set \dusa{iprint}. + +\item[\dusa{iprint}] index used to control the printing in module {\tt DLEAK:}. + +\item[\moc{TYPE}] keyword used to set the leakage parameter that is differentiated. + +\item[\moc{DIFF}] differentiation with respect to diffusion coefficients. + +\item[\moc{NTOT1}] differentiation with respect to $P_1$-weighted macroscopic total cross sections. + +\item[\moc{DELTA}] keyword used to set the type of differentiation. + +\item[\moc{VALUE}] differentiation with respect to the leakage parameter itself. + +\item[\moc{FACTOR}] differentiation with respect to the correction factor $\mu$. + +\item[\moc{MIXMIN}] keyword used to set the first mixture where leakage parameters are differentiated. By default, +the first mixture index is used. + +\item[\dusa{ibm1}] minimum mixture index where leakage parameters are differentiated. + +\item[\moc{MIXMAX}] keyword used to set the last mixture where leakage parameters are differentiated. By default, +the total number of mixtures in \dusa{MACRO} is used. + +\item[\dusa{ibm2}] maximum mixture index where leakage parameters are differentiated. + +\item[\moc{GRPMIN}] keyword used to set the first energy group where leakage parameters are differentiated. By default, +the first energy group index is used. + +\item[\dusa{ngr1}] minimum energy group index where leakage parameters are differentiated. + +\item[\moc{GRPMAX}] keyword used to set the last energy group where leakage parameters are differentiated. By default, +the total number of energy groups in \dusa{MACRO} is used. + +\item[\dusa{ngr2}] maximum energy group index where leakage parameters are differentiated. + +\end{ListeDeDescription} +\clearpage -- cgit v1.2.3