diff --git a/opamp_circuits_C_GARRETT/opamps.tex b/opamp_circuits_C_GARRETT/opamps.tex
index e507c49..d65cfe8 100644
--- a/opamp_circuits_C_GARRETT/opamps.tex
+++ b/opamp_circuits_C_GARRETT/opamps.tex
@@ -1136,10 +1136,12 @@ Where $L$ represents the number of levels in the FMMD hierarchy,
 $|\xi|$ represents the number of functional groups on the level
 and $H$ represents an FMMD hierarchy,
 we overload the comparison complexity equation thus:
-$$
+%$$
+\begin{equation}
      \label{eqn:gf}
       CC(H) = \sum_{\xi=0}^{L} \sum_{j=1}^{|\xi|} CC({G}_{j}^{\xi}).
-$$
+%$$
+\end{equation}
 
 
 \pagebreak[4]
@@ -1165,7 +1167,7 @@ rigorous checking feasible.
 
 
 \pagebreak[4]
-\subsection{Using the concept of Complexity Comparison to compare RFMEA with FMMD}
+%\subsection{Using the concept of Complexity Comparison to compare RFMEA with FMMD}
 
 \begin{figure}
  \centering
@@ -1190,7 +1192,7 @@ to represent the number of checks to make.
 Consider $k$ to be the number of components in a {\fg} (i.e. $k=|{\FG}|$), 
 $f$ is the number of failure modes per component (i.e. $f=|fm(c)|$), and 
 $L$ to be the number of levels in the hierarchy of an FMMD analysis.
-We can represent the number of failure scenarios to check in an FMMD
+We can represent the number of failure scenarios to check in a (fixed parameter for $|{\FG}|$ and $|fm(c_i)|$) FMMD hierarchy
 with equation~\ref{eqn:anscen}.
  
 \begin{equation}