+\begin{description}
+ \item[Smooth:] serves to make the graph more homogeneous, improving its visualization.
+ \item[Refresh on Stop ON:] scopes are updated when you stop playback at a given location. Instead, they are locked at the start position while you playback (by dragging the cursor or using the Transport buttuns). This saves system resources and makes playback smoother.
+ \item[Refresh on Stop OFF:] the display of the scopes is synchronized with the playback. Every variation of the graphs is in realtime. There may be some decrease in fps during playback.
+ \item[Refresh on Release:] This works for the Viewer and Compositor windows. Scopes are not updated
+during playback. The update occurs only when you stop playback, that is at the final position (either by
+dragging the cursor or using the Transport buttons). When in the timeline, if you drag on the TimeBar or
+reposition in the TimeBar in either Drag and Drop or Cut and Paste mode, the release of the button also will
+update the Scopes. This saves system resources and makes playback smoother. Because there is no update when
+playing in the main window, you can still easily get a videoscope update simply by moving the mouse to the
+Compositor and a single click there will update the scopes without changing the frame (as long as Click to
+Play is not enabled).
+\end{description}
+
+ The lower section, called \textit{VectorWheel Grids}, it is only active when VectorWheel is set up in Scopes pull-down and contains four entries (figure~\ref{fig:videoscope06}):
+
+ \begin{description}
+ \item[None:] It only shows the colour wheel, without any superimposed graticula.
+ \item[All:] Shows the most complete grid that allows precise and useful measurements. It also shows the skintones area.
+ \item[Hue:] Show a more minimal grid. It also shows the I-Line.
+ \item[IQ:] Show shows only I-Line and Q-Line.
+ \end{description}
+
+\begin{figure}[hbtp]
+ \centering
+ \includegraphics[width=1.0\linewidth]{videoscope06.png}
+ \caption{Pull-down Settings}
+ \label{fig:videoscope06}
+\end{figure}
+
+You can create custom grids. These are raster .png images of adequate resolution and must be put in:
+
+\begin{lstlisting}[style=sh]
+[your cinelerra path]/bin/plugins/scopes/custom_grid.png
+\end{lstlisting}
+
+More information in the later section on Vectorscope.
+
+\paragraph*{Sliders:} allow for varying the \textit{solidity} of the dots shown in Waveforms and Vectorscope. You can get to the subpixel level for precision. They are accompanied by Reset buttons that restore them to default values.
+
+
+
+\subsubsection*{Waveform/RGB Parade/Waveform Ply}%
+\label{ssub:waveform_rgb_parade_ply}
+
+The \textit{Waveform Scope} displays image intensity (luminance) versus image $X$ position. The \textit{Waveform RGB} displays image RGB intensity versus image $X$ position (one graph per channel). The \textit{Waveform Ply} shows the three channels in a single graph. The Waveform Scope appears on the left side or in the middle of the Videoscope window. The display is calibrated vertically from $0\%$ intensity (black) at the bottom up to $100\%$ intensity (white) at the top. Each column of pixels in the image corresponds to one column of pixels in the Waveform Scope (figure~\ref{fig:videoscope02}). Note that the height of the values of a waveform/waveform RGB corresponds exactly to the values on the $x\, axis$ in the \textit{histogram}. A vertical/horizontal correspondence is therefore obtained.