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\end{equation} as defined in \cite{antenna}.  \subsubsection{Quantity}  We will use $N$ in this document as the number of array elements.  \subsection{Pad \subsection{Antenna Pad  Aspects} \subsubsection{Quantity}  We will use $P$ in this document as the number of pad built for the array.  In case re-configuration of the array is envisioned, there might be a bigger number of pads ready for aperture connection to the system. \subsubsection{Position}  We will use the geographic latitude and longitude of the pads latitudes  and longitudes to establish pad location in this document. We will  calculatefrom that  the length of the possible baselines using pad positions. We will also calculate length  and complexity of the roads,  fiber and power networks needed to use array elements on them. using pad positions.  \subsection{Receiver Aspects}  \subsubsection{Bandwidth}  \subsubsection{Temperature}  \subsubsection{Efficiency}  \subsection{Correlator Aspects}  \subsubsection{Position}  To define the correlator positon we We  willalso use its  geographic latitude and longitude. longitude to establish correlator location in this document. We will calculate fiber, power and road network aspects based in this information.  \subsubsection{Efficiency}  We will use $\eta_c$ as correlator efficiency in this document, with   \begin{equation}\label{eq:correlator_efficiency} 
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