@@ -16,7 +16,8 @@ Check the here the [TODO list](TODO).
# Modules
-[core](https://www.ict.inaf.it/gitlab/hotwheels/core): **[Private repo]** Provides essential utilities for: (1) Compiling and executing C code from Python (`core.wrap`); (2) Generating and managing particle data structures as structures of arrays (SoAs) (`core.soa`); (3) General C utilities (e.g., MPI patterns, MyMalloc, panic handling in `core.utils`).
-[easyc](https://www.ict.inaf.it/gitlab/hotwheels/easyc): **[Public repo]** A standalone hotwheels-unrelated package for compiling and executing C code from Python, and easily passing of numpy arrays as C arrays, enums, typedefs, arbitrarely nested structures, in particular structures or array and array of structures.
-[core](https://www.ict.inaf.it/gitlab/hotwheels/core): **[Private repo]** Provides essential utilities for: Generating and managing particle data structures as structures of arrays (SoAs) (`hotwheels_core.soas`); (3) General C utilities (e.g., MPI patterns, MyMalloc, panic handling in `hotwheels_core.utils`).
-[IO](https://www.ict.inaf.it/gitlab/hotwheels/io): **[Private repo]** Handles parallel reading and writing of Gadget1-2 snapshots (thus including [N-GenIC](https://www.h-its.org/2014/11/05/ngenic-code/) and [MUSIC](https://www-n.oca.eu/ohahn/MUSIC/) formats), as well as HDF5 files.
-[tree](https://www.ict.inaf.it/gitlab/hotwheels/tree): **[Private repo]** A standalone octree implementation designed for GPU compatibility. It supports Hilbert or Morton ordering, multi-particle leafs, and can be used in standalone C projects.
-[domain](https://www.ict.inaf.it/gitlab/hotwheels/domain): **[Private repo]** A GPU-friendly domain decomposition module based on Hilbert particle ordering.
