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code_revisions [2014/06/02 15:12] gilmer |
code_revisions [2014/06/05 19:09] (current) dreyfuss |
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==== Code Revisions ==== | ==== Code Revisions ==== | ||
- | Choice of Network Solver: | + | Choice of Network Solver:\\ |
- | ***Backwar-Euler** : dY(t+Δt)/dt = [Y(t+Δt) - Y(t)]/Δt | + | **Backwar-Euler** : dY(t+Δt)/dt = [Y(t+Δt) - Y(t)]/Δt |
- | Choice of Matrix Solver: \\ Use of a Sparse Solver because our network is very large, leaving two choices \\ | + | Choice of Matrix Solver: \\ Use of a Sparse Solver because our network is very large so we are using: |
- | + | ||
- | **PARADISO**: | + | |
- | **MA488** : | + | **PARADISO**: Instructions for implementing this solver into xnet can be found [[instructions|here]] |
- | + | ||
+ | ==== Plotting ==== | ||
+ | |||
+ | [[https://github.com/KJCook/sedov-solution/blob/master/nuclearchart/plotchart.py|Chart of nuclides]] - written by Kaitlin Cook\\ | ||
+ | //This code plots a blank chart of nuclides - may be edited for animation, or just to indicate which nuclei are included in your network// | ||
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