diff --git a/full-detector-simulations/FCCeeGeneralOverview/FCCeeGeneralOverview.md b/full-detector-simulations/FCCeeGeneralOverview/FCCeeGeneralOverview.md index 49522a7d..f428b2ad 100644 --- a/full-detector-simulations/FCCeeGeneralOverview/FCCeeGeneralOverview.md +++ b/full-detector-simulations/FCCeeGeneralOverview/FCCeeGeneralOverview.md @@ -14,6 +14,7 @@ So, let's start playing with Full Sim! # connect to a machine with cvmfs access and running an OS supported by Key4hep (Alma9 here) ssh -X username@submit-test.mit.edu # or ssh -X username@lxplus.cern.ch # set-up the Key4hep environment +# make sure you are in a shell with bash or zsh source /cvmfs/sw-nightlies.hsf.org/key4hep/setup.sh # create a repository for the tutorial mkdir FCC_Full_Sim_Tutorial @@ -252,7 +253,7 @@ Now, let's copy the file containing the geometry on your local machine: scp USERNAME@HOSTNAME:ABSOLUTE_PATH_TO_GEOMETRY . ``` -Load the file from your computer with the triple-dot button of this webpage: https://root.cern/js/latest/ . +Load the file from your computer with the triple-dot button of this webpage: [https://root.cern/js/latest/](https://root.cern/js/latest/). From there, you can navigate the geometry hierarchy to see how volumes are nested, display all or parts of the detector (right click on a volume > Draw > all), play with the camera settings (right click on an empty space in the display window > Show Controls, Clipping > Enable X and Enable Y), etc. See the following picture for illustration: