From: Bruno Date: Wed, 10 Jun 2020 04:18:16 +0000 (-0400) Subject: - Added missing parameter file X-Git-Tag: v9.3.0-rc1~1101^2~8 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=6bb6f3e6bfcc77052556e258c1013fe20d1fb1ad;p=dealii.git - Added missing parameter file - Added section in introduction on the challenges related to distributed particle simulations --- diff --git a/examples/step-68/doc/intro.dox b/examples/step-68/doc/intro.dox index 54ec069814..93592f0202 100644 --- a/examples/step-68/doc/intro.dox +++ b/examples/step-68/doc/intro.dox @@ -77,6 +77,39 @@ particle solver and attribute the desired properties to the particles (e.g. mass store the value of the fluid velocity and the process id to which the particles belong. +

Challenges related to distributed particle simulations

+ +Although the present step is not computationnaly intensive, simulations that +include particles can be computationnaly demanding and require parallelization. +The present step showcases the distributed parallel capabilities of deal.II for particles. +In general, there are three main challenges +that arise in parallel distributed simulations that include particle: +- Generating the particles on the distributed triangulation; +- Exchanging the particles that leave local domains between the processors; +- Load balancing the simulation so that every processor has a similar computational load. + +Generating the particles is not straightforward since the processor to which they belong +must first be identified before the cell in which they are located is found. +Deal.II provides numerous capabilities to generate particles through the Particles::Generator namespace. +Some of these particle generator generate particles on the locally own subdomain. For example, +Particles::Generators::regular_reference_locations uses a regular reference location within each cell of +the subdomain or Particles::Generators::probabilistic_locations uses +a probability density function to generate the particles. + +In some situations, such as the present step, particles must be generated at specific locations +on cells that are owned only by a subset of the processors. In most of these situations, +the insertion of the particle is done for a very limited number of time-steps and, consequently, +does not constitute a large portion of the computational cost. For these occasions, deal.II provides +convenient Particles::Generators that can globally insert the particles even if they are not located +on the subdomain from which they are created. The generators first locate on which subdomain the particles +are situated, identify is which cell they are located and exchange the necessary information amongst the processors +to ensure that the particle is generated with the right properties. Consequently, this type of particle generation +is communication intensive. The Particles::Generators::dof_support_points and the Particles::Generators::quadrature_points +generate particles using a, possible non-matching, triangulation and the points of an associated dof_handler or quadrature respectively. +Furthermore, the Particles::ParticleHandler class provides the Particles::ParticleHandler::insert_global_particles function +which enables the global insertion of particles from a vector of points and a global vector of bounding boxes. In the present step, +we use the Particles::Generators::quadrature_points to insert the particle in the shape of a circle. +

The testcase

diff --git a/examples/step-68/parameters.prm b/examples/step-68/parameters.prm new file mode 100644 index 0000000000..aa49faae02 --- /dev/null +++ b/examples/step-68/parameters.prm @@ -0,0 +1,23 @@ +# Listing of Parameters +# --------------------- +subsection Particle Tracking Problem + # End time of the simulation + set Final time = 4 + + # Refinement level of the fluid domain + set Fluid refinement = 4 + set Output directory = ./ + + # Iteration frequency at which output results are written + set Output frequency = 10 + + # Refinement of the volumetric mesh used to insert the particles + set Particle insertion refinement = 3 + + # Iteration frequency at which the mesh is load balanced + set Repartition frequency = 5 + set Time step = 0.002 + set Velocity degree = 1 +end + +