Trixi.jl: Adaptive high-order numerical simulations of conservation laws in Julia

An adaptive and distributed-memory parallel implementation of the immersed boundary (IB) method

Castro (Compressible Astrophysics): An adaptive mesh, astrophysical compressible (radiation-, magneto-) hydrodynamics simulation code for massively parallel CPU and GPU architectures.

Structured Adaptive Mesh Refinement Application Infrastructure - a scalable C++ framework for block-structured AMR application development

Parallel algorithms and data structures for tree-based adaptive mesh refinement (AMR) with arbitrary element shapes.

An adaptive mesh hydrodynamics simulation code for low Mach number reacting flows

OpenFoam® motorBike case with adaptive volume & surface mesh refinement based on curl(U) or grad(p)

Hydrodynamics Adaptive Mesh Refinement Simulator (HAMeRS) for compressible multi-species/multi-phase simulations

A pseudo-spectral collocation based multi-phase Optimal control problem solver

AthenaPK: a performance portable version of Athena++ built on Parthenon and Kokkos

Two-moment AMR radiation hydrodynamics (with self-gravity, particles, and chemistry) on CPUs/GPUs for astrophysics

Intervals coupled with algebra of set to handle adaptive mesh refinement and operators on it.

P4est.jl is lightweight Julia wrapper for the p4est C library, which allows to manage multiple connected adaptive quadtrees/octrees in parallel.

A Python framework for developing parallelized Computational Fluid Dynamics software to solve the hyperbolic 2D Euler equations on distributed, multi-block structured grids.

Quadtree Adaptive Mesh Refinement

A low Mach number stellar hydrodynamics code

A parallel, fast solver for the scalar advection-diffusion and the incompressible Navier-Stokes equations based on semi-Lagrangian/Volume-Integral method.

Analysis Tool for Astrophysical Simulation Data in the Julia Language

Compute Mandelbrot Set using adaptive mesh refinement

Implements Helmholtz-Hodge decomposition for an AMR velocity field