The following page has been updated: http://www.fenics.org/wiki/DOLFIN_road_map
The changes are as follows. *** --- *************** *** 19,34 **** * [15]1 Version 1.0 * [16]2 Version 0.9.4 * [17]3 Version 0.9.3 ! * [18]4 Other planned features ! + [19]4.1 Demos ! + [20]4.2 Function ! + [21]4.3 General ! + [22]4.4 Linear Algebra ! + [23]4.5 Mesh ! + [24]4.6 ODE solvers ! + [25]4.7 Parallelization ! + [26]4.8 Parameter system ! + [27]4.9 User solvers [[28]edit] --- 19,34 ---- * [15]1 Version 1.0 * [16]2 Version 0.9.4 * [17]3 Version 0.9.3 ! * [18]4 Parallelisation ! * [19]5 Other planned features ! + [20]5.1 Demos ! + [21]5.2 Function ! + [22]5.3 General ! + [23]5.4 Linear Algebra ! + [24]5.5 Mesh ! + [25]5.6 ODE solvers ! + [26]5.7 Parameter system ! + [27]5.8 User solvers [[28]edit] *************** *** 86,94 **** [[34]edit] Other planned features ! [[35]edit] Demos --- 86,116 ---- [[34]edit] + Parallelisation + + * [DEL: Mesh parsing :DEL] + * [DEL: Partitioning (ParMETIS) :DEL] + * [DEL: Mesh distribution :DEL] + * [DEL: Coefficients/interpolation :DEL] + * [DEL: Mesh entity numbering :DEL] + * [DEL: DOF renumbering :DEL] + * [DEL: SparsityPattern :DEL] + * Test cases / unit tests (see sandbox/demo.py) + * Partition and distribution of built-in meshes + * DG (facet assembly) + * Benchmarking + * [DEL: VTK output :DEL] + * Viper visualisation + * [DEL: Dirichlet BC :DEL] + * Neumann BC (should work, needs to be tested) + * Get all demos to run in parallel + * More advanced renumbering + + [[35]edit] + Other planned features ! [[36]edit] Demos *************** *** 100,119 **** + This section may also relate/link to the higher order mesh stuff. ! [[36]edit] Function * Direct support for tensor valued functions * Input/output for time-series ! [[37]edit] General * Remove as much const_cast as possible ! [[38]edit] Linear Algebra --- 122,141 ---- + This section may also relate/link to the higher order mesh stuff. ! [[37]edit] Function * Direct support for tensor valued functions * Input/output for time-series ! [[38]edit] General * Remove as much const_cast as possible ! [[39]edit] Linear Algebra *************** *** 121,127 **** and call it if necessary (GNW: I don't think that we should do this) ! [[39]edit] Mesh --- 143,149 ---- and call it if necessary (GNW: I don't think that we should do this) ! [[40]edit] Mesh *************** *** 130,136 **** * Support for non-affine cells * Rewrite Point class with public x, y, z member and use the trick described here to allow indexed access: ! [40]http://www.mr-edd.co.uk/?p=113 * Higher Order (Curved) Mesh Capability + Continue to get P2 (quadratic) 2-D triangles implemented. + This will require modifying ufc::cell and related routines so --- 152,158 ---- * Support for non-affine cells * Rewrite Point class with public x, y, z member and use the trick described here to allow indexed access: ! [41]http://www.mr-edd.co.uk/?p=113 * Higher Order (Curved) Mesh Capability + Continue to get P2 (quadratic) 2-D triangles implemented. + This will require modifying ufc::cell and related routines so *************** *** 139,166 **** NOT affinely mapped. + Have a demo for this. ! [[41]edit] ODE solvers * Solve dual and compute error estimate * Automatic computation of stability factors as function of time T - - [[42]edit] - - Parallelization - - * Modify Function to work with distributed vectors (for parallel - assembly) - * Refine linear algebra classes for parallel assembly and solve - * I/O - * Store both global and local indices for cell/vertex, add mesh - functions for this - * Adapt BoundaryComputation for parallel mesh, use knowledge about - which vertices are shared to decide if a facet is a global or - local boundary - * Use parallel mesh information in DofMap to simplify implementation - - should only need map from local to global cell/vertex [[43]edit] --- 161,172 ---- NOT affinely mapped. + Have a demo for this. ! [[42]edit] ODE solvers * Solve dual and compute error estimate * Automatic computation of stability factors as function of time T [[43]edit] _______________________________________________ DOLFIN-dev mailing list DOLFIN-dev@fenics.org http://www.fenics.org/mailman/listinfo/dolfin-dev