ENE6103 - Calcul neutronique des réacteurs
Section | Name | Description |
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Topic 1 | ||
Topic 2 | ||
Topic 4 | ||
Topic 5 | Solution of a tri-diagonal linear system using Gauss elimination |
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Cholesky factorization |
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linear system solution after Cholesky factorization |
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Iterative solution of a linear system. Free iterations. |
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Iterative solution of a linear system. Livolant acceleration. |
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Iterative solution of a linear system. GMRES(m) acceleration. |
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find the fondamental eigenvalue and corresponding eigenvector of equation (a-eval*b)*evect=0 using the inverse power method |
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find the solution of a fixed source eigenvalue equation (a-eval*b)*gamma=s using the inverse power method |
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Compute the coupling coefficients for the analytic nodal method |
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Find the roots of the inhour equation |
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Random walk of a neutron |
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Power iteration with the Monte-Carlo method |
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Random number generator |
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Solution of a non-linear equation using the Newton method |
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Topic 6 | Diaporama semaine 2 |
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Diaporama semaine 4 |
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Diaporama semaine 5 |
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Diaporama semaine 6 |
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Diaporama semaine 7 |
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Diaporama semaine 8 |
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Diaporama semaine 9 |
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Diaporama semaine 10 |
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Diaporama semaine 11 |
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Diaporama semaine 12 |
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Topic 7 | ||
Topic 8 | ||
Alain Hébert, Applied Reactor Physics, Presses Internationales Polytechnique, Montréal, 2009. |
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Le document officiel d'analyse de cours. |
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Un guide de démarrage sur l'utilisation de Matlab écrit par Steven Dufour. |
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Le site officiel pour récupérer la version open-source de Dragon/Donjon. |
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Un diaporama donnant les objectifs de conception et les principes d'utilisation. |
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