diff --git a/doc/flexiblesusy-paper.tex b/doc/flexiblesusy-paper.tex
index 47c3608e6..7e4f1b6d5 100644
--- a/doc/flexiblesusy-paper.tex
+++ b/doc/flexiblesusy-paper.tex
@@ -537,12 +537,12 @@ \subsection{Downloading \fs and generating a first spectrum generator}
 commands:
 %
 \begin{lstlisting}[language=bash]
-$ ./createmodel --name=MSSM
-$ ./configure --with-models=MSSM
+$ ./createmodel --name=CMSSM
+$ ./configure --with-models=CMSSM
 $ make
 \end{lstlisting}%% $
 %
-The first command creates the model directory \code{models/MSSM/}
+The first command creates the model directory \code{models/CMSSM/}
 together with a CMSSM model file accompanied by
 a specimen SLHA input file.  The \code{configure} script checks
 the system requirements and creates the \code{Makefile}.  See
@@ -551,14 +551,14 @@ \subsection{Downloading \fs and generating a first spectrum generator}
 it.  The resulting executable can be run like this:
 %
 \begin{lstlisting}[language=bash]
-$ cd models/MSSM 
-$ ./run_MSSM.x --slha-input-file=LesHouches.in.MSSM
+$ cd models/CMSSM
+$ ./run_CMSSM.x --slha-input-file=LesHouches.in.CMSSM
 \end{lstlisting}
 %
 When executed, the spectrum generator tries to find a set of \DRbar\
 model parameters consistent with all CMSSM boundary conditions for the
 parameter point given in the SLHA input file
-\code{LesHouches.in.MSSM}.  Afterwards, the pole mass
+\code{LesHouches.in.CMSSM}.  Afterwards, the pole mass
 spectrum and mixing matrices are calculated and written to the standard
 output in SLHA format \cite{Skands:2003cj,Allanach:2008qq}.  For the
 parameter point given in the above example the calculated pole mass