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DUBeat
1.0.1
High-order discontinuous Galerkin methods and applications to cardiac electrophysiology
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DUBeat
1.0.1
High-order discontinuous Galerkin methods and applications to cardiac electrophysiology
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| ▼NDUBeat | |
| ▼Nmodels | |
| ▼Nheat_DG | |
| CExactSolution | Exact solution of the problem |
| CRightHandSide | Source term |
| CBCNeumann | Neumann boundary condition |
| CGradExactSolution | Gradient of the exact solution |
| ▼Nlaplace_DG | |
| CExactSolution | Exact solution |
| CRightHandSide | Source term |
| CGradExactSolution | Gradient of the exact solution |
| ▼Nmonodomain_fhn_DG | |
| CExactSolution | Exact solution of the trans-membrane potential |
| CRightHandSide | Source term: applied current |
| CBCNeumann | Neumann boundary condition of the trans-membrane potential |
| CGradExactSolution | Gradient of the trans-membrane potential |
| CExactSolution_w | Exact solution of the gating variable |
| CGradExactSolution_w | Gradient of the gating variable |
| CHeatDG | Class to solve the heat equation using the Discontinuous Galerkin method |
| CLaplaceDG | Class to solve the Laplace equation using the Discontinuous Galerkin method |
| CMonodomainFHNDG | Class to solve the monodomain equation with Fitzhugh-Nagumo ionic model for the cardiac electrophysiology using the discontinuous Galerkin method |
| Ngenerate_convergence_plots |
1.9.1