Turns out it is as simple as can be to have it run live.
This article: Running Gnuplot as a live graph, with automatic updates
explains the process nicely.
Turns out that all you need to do is add two lines of code after the plot command. In my case, I want it to update the graph every 15 seconds, so the last two lines of the program are simply
Here is an excerpt from the article:
Gnuplot has some useful commands we can use:
These are fairly self-explanatory, so let’s make a Gnuplot file, liveplot.gnu, that refreshes itself once every second.
set xrange [0:20]
set yrange [0:400]
plot "plot.dat" using 1:2 with lines
We set the bounds of our graph, then plot the data from the file. using 1:2 means plot columns 1 and 2 as x and y, respectively. with lines means that the points are joined together rather than plotted separately. We pause for 1 second and then reread, meaning that the command file is re-executed.
It turned out to be so simple that I am going to add those two lines to all my graphs that I monitor on the xterminals of the individual Rpi3s that monitor the sensors.
Collected together on the big screen it gives me a great overview of the entire system, including temperatures and voltages and such.
The best part is that there is no need to specify the X range to be fixed. It is much better to let it recalculate every time it rereads.
Results: A true live graph, monitoring conditions of the sensors from which it is receiving near-real-time data.
(You can see how hot the panels get even on a relatively cool day, and how the MPPT charge controller works to maintain the voltage)