diff --git a/README.md b/README.md
index 9fa8671b7243b2b0fbaf77f3e42d2eefe77df026..1cf932fd74496f6cf36ef0609e03c4292e1bffe2 100644
--- a/README.md
+++ b/README.md
@@ -10,18 +10,13 @@ The [CoRe](http://www.computational-relativity.org/) python package for the anal
 The installation relies on standard Python library `setuptools`.
 Once the repository is cloned, the installation can be performed in two ways,
 depending on the choice of the user:
+
 * Run the command `python setup.py install` or `python setup.py install --user` inside the project directory. 
 * Install the module via `pip` running the command `python -m pip install` inside the project directory. It is possible to include the `--user` option and the `-e` option for editing.
 
 ## Requirements
 
-The Python Waveform Analysis Tools are compatible with Python3 (Old versions of watpy were Python2 compatible).
-
-Albeit WatPy is a Python package, it requires the following to be able to properly interface with the database:
-
-* [git](https://git-scm.com/) version control system
-* [git-lfs](https://git-lfs.github.com/) API (Large File Storage)
-
+`watpy` works with Python3.
 The following Python packages are required for installation:
 
 * [Numpy](https://numpy.org/) (Python array-handler)
@@ -34,6 +29,12 @@ For users interested in interactive usage of this package we suggest ipyhton not
 * [iPython](https://ipython.org/) (Strictly better version of the basic python shell)
 * [Jupyter](https://jupyter.org/) (Notebooks, slides, HTML conversion of notebooks and more)
 
+To sync and clone the CoRe DB `watpy` requires a git installation:
+
+* [git](https://git-scm.com/) version control system
+* [git-lfs](https://git-lfs.github.com/) API (Large File Storage)
+
+
 ## Content
 
 `watpy` implements few classes to clone and work with CoRe waveforms.
@@ -49,7 +50,7 @@ For users interested in interactive usage of this package we suggest ipyhton not
 ## Features
 
  * Classes for multipolar waveform data
- * Classes to work with the CoRe database
+ * Classes to work with the [CoRe database](core-gitlfs.tpi.uni-jena.de/)
  * Gravitational-wave energy and angular momentum calculation routines
  * Psi4-to-h via FFI or time integral routines
  * Waveform alignment and phasing routines
@@ -58,4 +59,4 @@ For users interested in interactive usage of this package we suggest ipyhton not
  * Richardson extrapolation
  * Wave objects contain already information on merger quantities (time, frequency)
  * Unit conversion package
- * Compatible file formats: BAM, Cactus (WhiskyTHC / FreeTHC), CoRe database
+ * Compatible numerical-relativity file formats: BAM, Cactus (WhiskyTHC / FreeTHC), CoRe database