Update README.md

15c6caa3 · Antonio Ragagnin · 09c97e15 · 15c6caa3
Commit 15c6caa3 authored 5 months ago by Antonio Ragagnin
--- a/README.md
+++ b/README.md
@@ -20,17 +20,16 @@ Check the here the [TODO list](TODO).
 - [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.
- [PM](https://www.ict.inaf.it/gitlab/hotwheels/pm):  **[Private repo]**  A standalone particle-mesh (PM) module, heavily inspired by the Gadget PM implementation.
+- [PM](https://www.ict.inaf.it/gitlab/hotwheels/PM):  **[Private repo]**  A standalone particle-mesh (PM) module, heavily inspired by the Gadget PM implementation.
 - [integrate](https://www.ict.inaf.it/gitlab/hotwheels/integrate): **[Private repo]**  Provides APIs and callbacks for cosmological and non-cosmological integration. This module also manages cosmological parameters.
 - [barnes_hut](https://www.ict.inaf.it/gitlab/hotwheels/barnes_hut):  **[To-Do]** A Gadget-like short-range gravity and potential computation module, based on the [Barnes & Hut (1986)](https://www.nature.com/articles/324446a0) algorithm.
 - [FoF](https://www.ict.inaf.it/gitlab/hotwheels/fof):  **[To-Do]** a simple stand-alone C friend-of-friend (FoF) halo identification.
 - [PESPH](https://www.ict.inaf.it/gitlab/hotwheels/PESPH): **[To-Do]** A pressure-entropy smoothed particle hydrodynamics (SPH) module.
 - [SH03](https://www.ict.inaf.it/gitlab/hotwheels/SH03):  **[To-Do]** A star formation recipe based on [Springel & Hernquist (2003)](https://ui.adsabs.harvard.edu/abs/2003MNRAS.339..289S/abstract), with cooling processes handled by [Grackle](https://grackle.readthedocs.io/en/latest/).

-# Run your simulations
-
-Currently it is possible to run particle-mesh gravity only simulations with and without comoving integrations:
+# Tutorials

+- [Install and test](install_and_test.md)
 - [A refined PM DMO run with fixed timesteps](run_pm_dmo_NFW_fixed_timestep.md)
 - **soon:** A cosmological PM DMO run with fixed timesteps