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| author | stainer_t <thomas.stainer@oecd-nea.org> | 2025-09-08 13:48:49 +0200 |
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| committer | stainer_t <thomas.stainer@oecd-nea.org> | 2025-09-08 13:48:49 +0200 |
| commit | 7dfcc480ba1e19bd3232349fc733caef94034292 (patch) | |
| tree | 03ee104eb8846d5cc1a981d267687a729185d3f3 /doc/IGE351/SectDfview.tex | |
Initial commit from Polytechnique Montreal
Diffstat (limited to 'doc/IGE351/SectDfview.tex')
| -rw-r--r-- | doc/IGE351/SectDfview.tex | 55 |
1 files changed, 55 insertions, 0 deletions
diff --git a/doc/IGE351/SectDfview.tex b/doc/IGE351/SectDfview.tex new file mode 100644 index 0000000..4d45a62 --- /dev/null +++ b/doc/IGE351/SectDfview.tex @@ -0,0 +1,55 @@ +\section{Contents of a \dir{fview} data structure}\label{sect:dfview} + +This directory contains information generated by the \moc{VAL:} module used to interpolate the diffusion flux computed for Cartesian geometries. The following options of calculations are currently implemented: +\begin{itemize} +\item 3D geometries tracked with \moc{TRIVAT:} using \moc{PRIM} (aka, variational collocation) method +\item 3D geometries tracked with \moc{TRIVAT:} using \moc{DUAL} (aka, Raviart-Thomas) method +\item 3D geometries tracked with \moc{TRIVAT:} using \moc{MCFD} (aka, nodal collocation) method +\end{itemize} + +\subsection{The state-vector content}\label{sect:fviewstate} + +\begin{itemize} + +\item The total number of energy group $N_{g} = \mathcal{S}_{1}$ + +\item The number of mesh along X direction $N_{x} = \mathcal{S}_{2}$ + +\item The number of mesh along Y direction $N_{y} = \mathcal{S}_{3}$ + +\item The number of mesh along Z direction $N_{z} = \mathcal{S}_{4}$ + +\end{itemize} + +\subsection{The main \dir{fview} directory}\label{sect:fviewdir} + +\begin{DescriptionEnregistrement}{Records and sub-directories + in \dir{fview} data structure}{7.0cm} +\CharEnr + {SIGNATURE\blank{3}}{$*12$} + {Signature of the \dir{fview} data structure ($\mathsf{SIGNA}=${\tt L\_FVIEW\blank{5}}).} + + +\IntEnr + {STATE-VECTOR}{$40$} + {Vector describing the various parameters associated with this data structure + $\mathcal{S}$} + +\RealEnr + {MXI\blank{9}}{$N_{x}$}{} + {array containing the mesh position along X-direction.} + +\RealEnr + {MYI\blank{9}}{$N_{y}$}{} + {array containing the mesh position along Y-direction.} + +\RealEnr + {MZI\blank{9}}{$N_{z}$}{} + {array containing the mesh position along Z-direction.} + +\DirlEnr + {FLUX\blank{8}}{$N_{g}$} + {List of real arrays. Each component of this list is a real array of dimension $N_{x}*N_{y}*N_{z}$ containing + the interpolated values of the flux in the energy group.} + +\end{DescriptionEnregistrement} |