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ENRICO: Exascale Nuclear Reactor Investigative COde

ENRICO is an application that automates the workflow for solving a coupled particle transport, heat transfer, and fluid dynamics problem. Individual-physics solvers for particle transport and thermal-fluids are chosen at runtime. Currently supported solvers include the OpenMC and Shift Monte Carlo particle transport codes and the Nek5000 and nekRS computational fluid dynamics codes. A simple surrogate thermal-fluids solver is also available for testing purposes.

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Configuring

For the thermal-fluids solver, ENRICO can be compiled to use Nek5000, nekRS, or neither. This is controlled by the -DNEK_DIST CMake option. The following values are allowed:

  • -DNEK_DIST=nek5000: (Default) If compiling with Nek5000, you must also specify the location of the input deck using the -DUSR_LOC option at configure time
  • -DNEK_DIST=nekrs
  • -DNEK_DIST=none

With any of the these options, the heat surrogate will still be available.

Building and Installing

To obtain the necessary source files for building, first clone the repository:

$ git clone git@github.com:enrico-dev/enrico.git

Next, fetch and checkout the submodules containing the various single-physics applications:

$ cd enrico
$ git submodule update --init --recursive

Next, the general workflow is for building and installing is:

  1. Create a build directory in an arbitrary location and enter it:
  $ mkdir build
  $ cd build
  1. Run CMake using the desired Nek distribution
    • For Nek5000:
      $ CC=mpicc CXX=mpicxx FC=mpifort cmake -DNEK_DIST=nek5000 -DUSR_LOC=../tests/singlerod/short/nek5000 ..
    • For nekRS:
      $ CC=mpicc CXX=mpicxx FC=mpifort cmake -DNEK_DIST=nekrs ..
    • Without Nek5000 or nekRS:
      $ CC=mpicc CXX=mpicxx FC=mpifort cmake -DNEK_DIST=none ..
  2. Run make and install. By default, this will install ENRICO in the install subdirectory of the current build dir. You can specify another install location with the usual CMAKE_INSTALL_PREFIX variable.
      $ make -j4 enrico install
  3. Optional: Add installation to $PATH
      $ export PATH=$(realpath install/bin):$PATH
    

Other Dependencies

  • For OpenMC:

You must supply a nuclear data library to run OpenMC. See the OpenMC documentation for instructions.

Running a Case

ENRICO must be run from the directory containing the case's input files. This includes the input files for the physics applications; and the ENRICO-specific enrico.xml input file. See the documentation for a description of the enrico.xml file.

For the included short singlerod test case, you can run the simulations as follows. (These assume you have added build/install to your PATH as described above; if not, you must use the full path to enrico)

  • For OpenMC + Nek5000:
$ cd tests/singlerod/short/openmc_nek5000
$ gunzip -f ../nek5000/rodcht.run01.gz
$ mpirun -np 32 enrico
(This particular example requires a restart file, `rodcht.run01`.)
  • For OpenMC + nekRS
$ cd tests/singlerod/short/openmc_nekrs
$ mpirun -np 32 enrico
  • For OpenMC + heat surrogate
$ cd tests/singlerod/short/openmc_heat_surrogate
$ mpirun -np 32 enrico

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