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Linux CI Doxygen documentation Source indentation

Weak forms for deal.II


An implementation of a symbolic weak form interface for deal.II, using expression templates as well as automatic and symbolic differentiation.

Author: Jean-Paul Pelteret, 2020 - 2022

Table of Contents

Concept


The idea for this library is to offer an abstraction for the discretisation of finite element weak forms using the deal.II open source finite element library. It, effectively, allows one to express the assembly of discretised linear system by the weak form alone, the components of which can be reused as they are lazily evaluated.

To summarise what this library offers the user: by providing an intuitive method to compose and re-use operations, the user is able to focus more on what they are doing (i.e. the algorithm or discretisation that they are wanting to implement) rather than how they are doing it (i.e. the programmatic implementation itself). This way you need not be distracted the minutia of the implementation -- all of the calculation loops are now hidden details, as are the data storage and value extraction processes. Permitting the storing and reusing intermediate values (or composite operations) means that if you want to change that definition, then you only need to do it in one place -- in the case of a composite operation, all of the updates to the underlying value composition follow seemlessly, and without any further intervention. On top of that, by leveraging automatic or symbolic differentiation, the number of hand-calculations required to implement complex constitutive laws correctly diminishes significantly.

Details as to exactly what the abstraction level is, and how it differs to the "native" functionality that is already provided in deal.II can be found here.

Features


Highlights

  • Easy to read and interpret expression of weak forms
  • Output of forms in ASCII and LaTeX formats
  • Any and all quantities can be retained as intermediate calculations
  • Wrappers for many of the commonly used deal.II functions and classes
  • Operator and function overloading for many deal.II dense linear algebra classes
  • Support for scalar, vector and tensor-valued finite elements
  • Support for multi-field forms, thereby supporting the implementation of (coupled) multi-physics problems
  • The use of std::functions as input to user-definable class value definitions
  • Self-linearising forms with specified parameterisations that leverage automatic and symbolic differentiation frameworks. This allows for problems to be implemented as a (scalar) energy functional or the expression of residuals alone. The AD/SD frameworks permit efficient derivative computations derived from provided quantities.
  • The datatype for calculations (float, double, std::complex<...>) is chosen only at assembly time and is, in principle, generic. This permits the implementation of complex-valued forms.
  • Volume, boundary and interface integration
    • Assembly loops, assembling cell or face matrix and/or vector contributions into a global linear system
    • Summation of quantities (like the integral of a field value)
  • Supports the hp finite element method
  • Supports MPI and serial computing concepts
  • Automatically implements multi-threading along with SIMD vectorisation (when available)

Wishlist and work in progress

  • Performance improvements for the self-linearising forms is an ongoing area of interest and research.
  • A matrix-free implementation will be investigated in the future.
  • Python bindings, to be usable in Jupyter Notebooks, will be investigated.

Class documentation


The source code documentation for this project can be found at https://jppelteret.github.io/dealii-weak_forms/index.html.

As the Doxygen documentation is incomplete, some more informative documentation for the user-interactive classes and some details of how they can be used are found here.

Examples


Some examples and output can be found here.

Benchmarks


The results of some preliminary benchmarks can be found here.

To summarise, for matrix-based methods the convenience that might be found in using such a library does come at some overhead. The overheads may be mitigated when higher order finite element methods are used (i.e. when using higher order FEs, a "typical" hand-written assembly loop (meaning, the canonical approach used in the deal.II tutorials) may be evaluated slower than the assembly loop generated by this library and when all the appropriate settings permitting optimisations have been chosen). However, there are many factors that might influence the performance of a code so this comment, guided by the observations made in the (limited) benchmarking study, should not be considered general truth. It might be prudent to conduct some examinations of your own before accepting the analysis done here and following any guidance given by the author.

Building the library


This library requires deal.II version 9.4.0 (at the time of writing, this means the developer version), and a C++14 compliant compiler (the minimum requirement to build deal.II).

In order to use the automatic or symbolic differentiation facilities, it is required that deal.II is built with the one or more of the following optional dependencies:

  • ADOL-C
  • Trilinos (with Sacado)
  • SymEngine

This project uses CMake as a build generator. The code block below encapsulates the various options that can be passed on CMake to configure the project before compilation.

cmake \
-DCMAKE_BUILD_TYPE=[Debug/Release] \
-DCMAKE_INSTALL_PREFIX=<path_to_installation_location> \
-DBUILD_BENCHMARKS=[ON/OFF] \
-DBUILD_DOCUMENTATION=[ON/OFF] \
-DBUILD_TESTS=[ON/OFF] \
-DDEAL_II_DIR=<path> \
-DDEAL_II_SOURCE_DIR=<path> \ # Only required when tests or benchmarks are enabled
-DDOXYGEN_EXECUTABLE=<path_to_doxygen> \ # Only required when documentation is built
-DCLANGFORMAT=[ON/OFF] \
-DCLANGFORMAT_EXECUTABLE=<path_to_clang-format> \ # Only required when code formatting is quired
<path_to_weak_forms_source>

This library has only been built and tested on MacOS with the Clang compiler, as well as the GCC compiler on a Linux operating system. Windows and/or MSVC are not explicitly supported.

Dependency recommendations


  • If you plan on using multi-threading and the SD framework provided by one of the self-linearising functors, then SymEngine (a deal.II dependency) should be built with the option -DWITH_SYMENGINE_THREAD_SAFE:BOOL=ON.

Citing the library


This library has been created for the author's enjoyment, so no direct citation is necessary, thanks. Since this library acts as a convenience wrapper around data structures and algorithms implemented in the deal.II library, a citation of the latest release paper, as well as the design paper, would be appreciated.

@article{dealII93,
  title     = {The \texttt{deal.II} Library, Version 9.3},
  author    = {Daniel Arndt and Wolfgang Bangerth and Bruno Blais and
               Marc Fehling and Rene Gassm{\"o}ller and Timo Heister
               and Luca Heltai and Uwe K{\"o}cher and Martin
               Kronbichler and Matthias Maier and Peter Munch and
               Jean-Paul Pelteret and Sebastian Proell and Konrad
               Simon and Bruno Turcksin and David Wells and Jiaqi
               Zhang},
  journal   = {Journal of Numerical Mathematics},
  year      = {2021, accepted for publication},
  url       = {https://dealii.org/deal93-preprint.pdf},
  doi       = {10.1515/jnma-2021-0081},
  volume    = {29},
  number    = {3},
  pages     = {171--186}
}

@article{dealII2019design,
  title   = {The {deal.II} finite element library: Design, features,
             and insights},
  author  = {Daniel Arndt and Wolfgang Bangerth and Denis Davydov and
             Timo Heister and Luca Heltai and Martin Kronbichler and
             Matthias Maier and Jean-Paul Pelteret and Bruno Turcksin and
             David Wells},
  journal = {Computers \& Mathematics with Applications},
  year    = {2021},
  DOI     = {10.1016/j.camwa.2020.02.022},
  pages   = {407-422},
  volume  = {81},
  issn    = {0898-1221},
  url     = {https://arxiv.org/abs/1910.13247}
}

As the matrix-based implementation leverages some awesome concepts and data structures in the deal.II library, it would be appropriate to cite the authors of those specific areas of work.

  • MeshWorker::mesh_loop(), built on top of the WorkStream pattern, for efficient multithreading
    @article{Turcksin2016,
      author    = {B. Turcksin and M. Kronbichler and W. Bangerth},
      title     = {WorkStream -- a design pattern for multicore-enabled finite
                   element computations},
      journal   = {ACM Transactions on Mathematical Software, pp. 2/1-29},
      year      = {2016},
      volume    = {43}
    }
  • VectorizedArray and AlignedVector for SIMD vectorisation
    @article{Kronbichler2012,
      author = {Martin Kronbichler and Katharina Kormann},
      title = {A generic interface for parallel cell-based finite element
               operator application},
      journal = {Computers {\&} Fluids},
      doi = {10.1016/j.compfluid.2012.04.012},
      url = {https://doi.org/10.1016/j.compfluid.2012.04.012},
      year = {2012},
      month = jun,
      publisher = {Elsevier {BV}},
      volume = {63},
      pages = {135--147}
    }
  • MeshWorker::ScratchData and GeneralDataStorage for generic finite element operations and data storage / extraction.
    @article{Sartori2018,
      Author  = {Sartori, Alberto and Giuliani, Nicola and
                 Bardelloni, Mauro and Heltai, Luca},
      Journal = {SoftwareX},
      Pages   = {318--327},
      Title   = {{deal2lkit: A toolkit library for high performance
                programming in deal.II}},
      Doi     = {10.1016/j.softx.2018.09.004},
      Volume  = {7},
      Year    = {2018}
    }

Docker images


A template for creating a docker image can be found in the docker folder.

Building the image

$ docker build . -t dealii-weak_forms-full_ci -f ./Dockerfile
$ docker run -d dealii-weak_forms-full_ci

Running the image

$ docker run --rm -t -i -v `pwd`:/home/dealii dealii-weak_forms-full_ci

Similar projects that inspired this work


Acknowledgements


Contributing


Please read the contributing documentation here.

License


This project is licensed under the GNU Lesser General Public License v3.0. For more information, see the LICENSE.md and COPYING.LESSER files.

Weak forms for deal.II: An implementation of a symbolic weak form interface
for deal.II, using expression templates as well as automatic and symbolic
differentiation. 

Copyright (C) 2021 - 2022  Jean-Paul Pelteret

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program.  If not, see <https://www.gnu.org/licenses/>.