Elmer 9.0

Elmer Release Notes for version 9.0

Previous release: 8.4
Period covered: Dec 18 2018 - Nov 10 2020
Number of commits: ~1340 (excluding merges)

These release notes provide information on the most essential changes.
You can get a complete listing of commit messages, for example, with:
git log --since="2018-12-18" > log.txt

Apart from the core Elmer team at CSC (Juhani K., Mika M., Juha R., Peter R., Thomas Z.)
git log shows contributions from Daniel B., Denis C., Eef v. D., Eelis T., Fabien G-C,
Foad S. F., Fredrik R., Olivier G., Joe T., Luz P., Mondher C., Rupert G., Sami I.,
Sami R., Samuel C., and Saeki T. to this release.

Additionally there are many ongoing developments in several branches
that have not been merged to this release and are not therefore covered here.
Also sometimes the code has been passed on by the original author by other means than the
git, and in such cases the names may have been accidentally omitted.

The contributions of all developers are gratefully acknowledged!

New Solver Modules

IncompressibleNSVec

• Incompressible Navier-Stokes solver utilizing vectorized and threaded assembly
• Includes built-in support for block preconditioning (Schur complement approximation included)
• Includes non-Newtonian material laws
• Intended for Elmer/Ice community but also other may find it useful.

BeamSolver3D

• Solver for the Timoshenko equations of elastic beams embedded in 3-D space (see Elmer Models Manual for documentation)

GmshReader

• Reads the mesh and results from simple Gmsh file format (that can be written by ElmerSolver as well)
• Solver includes interpolation of the fields to the current mesh
• May be used for hierarchical simulations where results are inherited from previous simulations

ModelMixedPoisson

• A general-purpose mixed FEM solver for the Poisson equation (see Elmer Models Manual for documentation)
• Employs a div-conforming (face) finite element approximation

SpringAssembly

• A generic utility to add node-wise springs and masses to structural models (see Elmer Models Manual for documentation)

MarchingODESolver

• A solver that can compute ordinary differential equations on a moving mesh.
• It is assumed that the mesh is structured and there is a known draw speed. This
  makes it possible to relate timestep and mesh parameter directly with each other.

Enhanced Solver Modules

ElasticSolve

• Adding a new UMAT material model is simplified: compilation with an elmerf90 command is sufficient
• The state variables of UMAT material model can be written to a result file and visualized
• UMAT implementation updated to support axial symmetry

EMWaveSolver

• The solver updated to support the basis functions of second order and simulation in 2D
• The solver is now documented in Elmer Models Manual

MagnetoDynamics

• Fixes and generalization to the source projection (the determination of Jfix).
• A surface impedance condition for the time-harmonic AV model
• Thin region formulation for 1D wires in transient analysis
• Magnetic anisotropy (a complex-valued reluctivity tensor) enabled for the time-harmonic AV model

MagnetoDynamics2D

• A velocity field can be given to add a Lorentz term to the equations
• Coreloss a posteriori formulas (Bertotti + extended Bertotti)

MagnetoDynamicsCalcFields

• Enabled postprocessing in the case of a complex-valued reluctivity tensor
• Enabled the computation of magnetic co-energy

ResultOutputSolver

• Vtu format:
  • Enable saving of pieces, i.e. bodies and boundaries
  • Improved saving of elemental, DG and IP fields
• Gmsh format:
  • Improved use of masking features in output

ShellSolver

• Eigenanalysis with the shell solver enabled
• Spring, resultant force and couple BCs added
• Combined analysis of 2-D shells and 1-D beams enabled
• Fully coupled analysis of 2-D shells and 3-D solids enabled (still subject to some geometric constraints on the mesh)
• Partial support for using an alternate formulation with drilling degrees of freedom

StructuredMeshMapper

• Enable arbitrary number of layers, before limited to three.

HeatSolver

• A new tentative vectorized version: HeatSolverVec
• Enable symmetric 3D cases for view factor computation to obtain significant timesavings
• Make Gebhart factors linear system symmetric, if possible "ViewFactor Symmetry"

StressSolver

• Added a Maxwell visco-elastic model to linear elasticity solver
• Possible also to be run as incompressible (introducing pressure variable)
• Optional pre-stress advection term for layered Earth-deformation model

WaveSolver

• The solver can be used to model harmonic and eigenmode cases as well.

ParticleAdvector

• Allow particles to be sent from Gaussian integration points as well. This is beneficial
  for robustness since they are not located at surface.
• Local integration time based on local Courant number.

ElmerSolver library functionality

Treatment of block systems

• The block matrix approach for solving complicated problems has been enhanced.
  Currently the block approach can be used in several ways during some stage of the solution.
  1. Split up monolithic equations into subproblems that are easier to solve (e.g. IncompressibleNS)
  2. Combine linear multiphysical (coupled) problems into a block matrix (e.g. FSI problems)
• For problems belonging to class 1) we may perform recreation of a monolithic matrix. This will
  allow better use of standard linear algebra to utilize direct solvers, or change the system to
  be harmonic or eigenvalue problem.
• For the documentation of utilizing block-matrix construct in connection with
  the fully coupled simulation of multiphysical problems see the new chapter
  "Block-matrix construct to build tightly coupled solvers" in ElmerSolver Manual.

More economical integration rules

• A collection of economical Gauss quadrature rules for prismatic elements are introduced to replace
  tensor product rules for quadrilateral p-elements when 1 < p <= 8. The tensor
  product rule with n = (p+1)**2 points is now replaced by more economical ones.

Dirichlet BCs for div-conforming vector finite elements (face elements)

• A sif command of the form Q {f} j = Real ... can be used to specify vector-valued data whose
  normal component is then used to integrate the values of DOFs for vector-valued interpolation of the data.
  Here Q is an Elmer variable which is approximated with face finite elements.

Conforming BCs by elimination

• System can identify conforming boundaries such that dofs related to nodes or edges on opposing sides may be
  assembled into one degree of freedom.
• This decreases the size of the linear system and is numerically favourable.
• Antiperiodicity may be included. For vector-valued problems all components must be treated alike.
• Conforming BCs for edge dofs may consider the direction of edge.
• See test cases with "Apply Conforming BCs" and "Conforming BC" defined.

Improved internal partitioning with Zoltan

• Enable internal partitioning with Zoltan to honor connected boundaries.

Enable primary solver to call other solvers

• For documentation see the section "Solver execution by a master solver" in ElmerSolver Manual.
• Enables calling before and after solving the primary problem.
• Also possible to call before and after each nonlinear iteration.

Anderson Acceleration for nonlinear systems

• Implemented a version of Anderson Acceleration where previous solutions and
  residuals are used to accelerate the nonlinear convergence.
• May increase nonlinear convergence to quadratic, quadratic convergence (Newton's method) is not improved.

Swapping meshes on-the-fly

• Implemented library functionality to swap meshes during the simulation.
• Currently no history data is interpolated.

ListGetElemental routines

• More flexible routines for obtaining material parameters for the Gaussian integration points.
• Detects automatically what kind of fields the dependency depends on (nodal, DG, elemental, IP points)
• Vectorized versions to be used with vectorized finite element assembly

View factors

• Allow computation of view factors in 3D cases with symmetry.
• Speed-up computation for cases where emissivity not equal to one.
• Enable view factors to be used in conjunction with DG (in HeatSolveVec)

Run Control

• Enable external loop control over the simulation.
• May be used in optimization and parametric scanning etc.
• Applicable also to transient systems as the variable "time" is not used for the control level.

Inline parameters

• Enable inline keywords -rpar and -ipar
• They are followed by the number of argument + values of the arguments.

Generic source control

• We may tune a r.h.s. load vector such that the solution (or reaction force) at
  given node is the desired one.
• Mimics the old Smart Control operation of HeatSolve but on a library level.

ElmerGrid

• Fixes for UNV, mptxt and Gmsh file format import.
• Tentative reader for FVCOM format
• Add possibility to define seed for Metis partitioning (-metisseed).
• Maintain entity names in extrusion
• ElmerGrid and its plugin under ElmerGUI were harmonized such that they use the same codebase.

ElmerGUI

Huge number of improvements by Saeki! Highlights include:

• Object browser to view the case at a glance and to easily access the most windows.
• Removed sif auto-generation functionality to avoid unintended overwriting of sif file.
• "Generate, save and run" button to quickly run the case modifed via GUI.
• "Save and run" button on sif window to quickly run the case modifed via sif window.
• Postprocessor button selectable from ElmerVTK, ElmerPost or ParaView.
• "New project..." menu as an alternative way to start a new project.
• Seperated "Save project as..." menu from "Save project" menu to save the project in a different directory.
• Improved and more robust project loading
• "Preference" menu on sif window and on solver log window for syntax highlighting and font selection.
• "Recent projects" in File menu for quick loading of recently used projects.
• Improved ElmerVTK postprocessor (reading simple .vtu file, bottom toolbar including time-step control and displace button, etc)

Configuration & Compilation

• New Windows installer utilizing msys2
  • either with or without ElmerGUI + with or without MPI installers

Elmer/Ice

• New features in Elmer/Ice are documented in elmerfem/elmerice/ReleaseNotes/release_elmerice_9.0.md

Other

• FreeCADBatchFEMTools improvements and added tests

New Contributors

• @frroberts made their first contribution in #176
• @mmcker made their first contribution in #118
• @Foadsf made their first contribution in #207
• @dremerb made their first contribution in #210
• @Kezii made their first contribution in #234
• @kinnala made their first contribution in #243

Full Changelog: release-8.4...release-9.0