Introduction

IAMR is a massively parallel, adaptive mesh refinement (AMR) code that solves the variable-density incompressible Navier-Stokes equations in 2-D or 3-D with the option for an embedded boundary (cut cell) representation of complex geometries.

It is built on top of AMReX, a publicly available software framework designed for building massively parallel block-structured adaptive mesh refinement (AMR) applications.

Another AMReX-based code, incflo, also solves the variable-density incompressible Navier-Stokes equations in 2-D or 3-D but does not support subcycling in time.

Key software and algorithmic features of IAMR include:

  • Fluid velocity, density and tracers are defined at cell centroids; pressure is defined at nodes.

  • Possible advection algorithms: a Method-Of-Lines (MOL) approach and a Godunov-method algorithm. Both use an intermediate MAC projection for face-centered advection velocities.

  • Incompressibility of the fluid is imposed through the use of an approximate projection at the end of the time step.

  • Implicit or explicit discretization of viscous terms with variable viscosity.

  • The representation of the complex geometry uses the embedded boundary, or cut-cell, approach.

  • Hybrid parallelization via MPI+X where X = OpenMP for multicore machines, and CUDA/HIP/DCP++ for CPU/GPU systems.

  • Parallel I/O using AMReX native I/O or HDF5.

  • Plotfile format supported by AmrVis, VisIt, ParaView, and yt.

  • Optional subcycling in time.

  • Support for particles.

The IAMR source code can be found at https://github.com/AMReX-Fluids/IAMR/. IAMR heavily leverages AMReX (see https://amrex-codes.github.io/) which is supported by ECP as part of the AMReX Co-Design Center.

Active development in IAMR is ongoing in the development branch. Changes are merged into the main branch at the beginning of each month.

If you find this documentation doesn’t answer your questions or contains errors, please open an issue on github: https://github.com/AMReX-Fluids/IAMR/issues .