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This section aims to include all relevant design parameters that might influence the selected performance objectives in \S~\ref{sec:obj}.  \subsection{Antenna Aspects}  \subsubsection{Collecting Area}  We will use $A$ [$m^2$]  in this document as each array element collecting area (thus we could also write $\pi \cdot D^2$, with $D$ [$m$]  being the dish diameter). \subsubsection{Efficiency}  We will use $\eta_a$ in this document as the antenna efficiency with   \begin{equation}\label{eq:antenna_efficiency} 
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We will use the geographic latitudes and longitudes to establish pad location in this document. We will calculate the length of the possible baselines using pad positions. We will also calculate length and complexity of the roads, fiber and power networks needed using pad positions. We will use $B$ as the maximum array element separation in any single configuration.  \subsection{Receiver Aspects}  \subsubsection{Bandwidth}  We will use $R$ as the number of frequency bands, being $R_i$ the different frequency bands. If the array bandwidth covered by all $R_i$ together is $f_{max} - f_{min}$, it is useful for our analysis to use wavelength $\lambda = \frac{c}{f_{max}} = \lambda_{min}$. \lambda_{min}$ in [$mm$].  \subsubsection{Temperature}  \subsubsection{Efficiency}  \subsection{Correlator Aspects} 
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