From: Matthias Maier Date: Tue, 21 May 2019 17:53:16 +0000 (-0500) Subject: add a first version for announcements X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=ce8339b4df5621f94ca4394174079a315a612306;p=release-papers.git add a first version for announcements --- diff --git a/9.1/announce b/9.1/announce new file mode 100644 index 0000000..bc2b2c0 --- /dev/null +++ b/9.1/announce @@ -0,0 +1,105 @@ +Version 9.1.0 of deal.II, the object-oriented finite element library awarded the +J. H. Wilkinson Prize for Numerical Software, has been released. It is +available for free under an Open Source license from the deal.II homepage at + + https://www.dealii.org/ + +The major changes of this release are: + + - Improved support for automatic and symbolic differentiation + + EXPAND + + - Full support for hp adaptivity in parallel computations. deal.II has + had support for hp-adaptive methods since around 2005, but not for both + at the same time. In order to gain support for parallel hp adaptivity a + number of algorithmic issues were addressed in this release. Details + can be found in the release paper. + + - Interfaces to the HDF5 file format and libraries + + EXPAND + + - GPU support was significantly extended for the current release: + Added features include preconditioners for CUDAWrappers::SparseMatrix + objects, support for MPI-parallel CUDA data structures, support for + constraints in the matrix-free framework (and thus also support for + adaptively refined meshes). + + - Parallel geometric multigrid (GMG) improvements + + EXPAND + + - Four new tutorial programs (step-61, step-62, step-63, step-64) + and a new code gallery program + + EXPAND + + - The release contains bug fixes and performance improvements of the + matrix-free framework and related geometric multigrid solvers. In + particular, the implementation of the Chebyshev iteration, an often + used smoother in the matrix-free context, has been revised to reduce + vector accesses. This speeds up matrix-free multigrid solvers by up to + 10-15% on geometries with affine (parallelogram and parallelpiped) + cells, and up to 5% on geometries with cells bounded by curved edges + and faces. + + - Various variants of geometric multigrid solvers and matrix-free + implementations were run on up to 304,128 cores during the acceptance + phase of the SuperMUC-NG supercomputer, verifying the scalability of + our implementations. Some performance bottlenecks on distributed + triangulation with more than 100k MPI ranks have been fixed. + + - The FE_BernardiRaugel class implements the non-standard + Bernardi-Raugel element that can be used to construct a stable + velocity-pressure pair for the Stokes equation. The Bernardi-Raugel + element is an enriched version of the Q_1^d element with added bubble + functions on each edge (in 2d) or face (in 3d). It addresses the fact + that the Q_1^d - Q_0 combination is not inf-sup stable (requiring a + larger velocity space), and that the Q_2^d - Q_1 combination is + stable but sub-optimal since the velocity space is too large relative to + the pressure space to provide additional accuracy commensurate with the + cost of the large number of velocity unknowns. The Bernardi-Raugel + space is intermediate to the Q_1^d and Q_2^d spaces. + + - The FE_NedelecSZ class is a new implementation of the Nédélec element + on quadrilaterals and hexahedra. It overcomes the sign conflict issues + present in traditional Nédélec elements that arise from the edge + and face parameterizations used in the basis functions. Therefore, this + element should provide consistent results for general quadrilateral and + hexahedral elements for which the relative orientations of edges and + faces (as seen from all adjacent cells) are often difficult to establish. + + - A new class ParsedConvergenceTable has been introduced. The class + simplifies the construction of convergence tables, reading the options + for the generation of the table from a parameter file. It provides a + series of methods that can be used to compute the error given a + reference exact solution, or the difference between two numerical + solutions, or any other custom computation of the error, given via + std::function objects. + + - A new interface to \texttt{boost::geometry::index::rtree} has been added. + + EXPAND + + - More than 200 other features and bugfixes. + +For more information see + - the preprint at https://www.dealii.org/deal91-preprint.pdf + - the list of changes at + https://www.dealii.org/developer/doxygen/deal.II/changes_between_9_0_1_and_9_1_0.html + +The main features of deal.II are: + - Extensive documentation and 63 fully-functional example programs + - Support for dimension-independent programming + - Locally refined adaptive meshes + - Multigrid support + - A zoo of different finite elements + - Fast linear algebra + - Built-in support for shared memory and distributed parallel computing, + scaling from laptops to clusters with 100,000+ processor cores + - Interfaces to Trilinos, PETSc, METIS, UMFPACK and other external software + - Output for a wide variety of visualization platforms. + +Martin Kronblicher and Matthias Maier, +on behalf of the deal.II developer team and many contributors. diff --git a/9.1/announce-short b/9.1/announce-short new file mode 100644 index 0000000..3022681 --- /dev/null +++ b/9.1/announce-short @@ -0,0 +1,24 @@ +Version 9.1.0 of deal.II, the object-oriented finite element library awarded +the J. H. Wilkinson Prize for Numerical Software, has been released. It is +available for free under an Open Source license from the deal.II homepage at +https://www.dealii.org/ + +The major changes of this release are: + - Improved support for automatic and symbolic differentiation + - Full support for $hp$ adaptivity in parallel computations + - Interfaces to the HDF5 file format and libraries + - Significantly extended GPU support + - Parallel geometric multigrid (GMG) improvements + - Four new tutorial programs (step-61, step-62, step-63, step-64) + and a new code gallery program + +The main features of deal.II are: + - Extensive documentation and 63 working example programs + - Support for dimension-independent programming + - Locally refined adaptive meshes and multigrid support + - A zoo of different finite elements + - Built-in support for shared memory and distributed parallel computing, + scaling from laptops to clusters with 100,000+ of processor cores + - Interfaces to Trilinos, PETSc, METIS, UMFPACK and other external software + +The deal.II developers