I did these tests in exactly the order I list below:
12v @ .124a (1.488w) = 8 bubbles in 1 minute
3v @ .150a (0.450w) = 9.5 bubbles in 1 minute

12v @ .124a (1.488w) = 10 bubbles in 74 seconds
3v @ .137a (0.378w) = 10 bubbles in 64 seconds
3v @ .126a (0.372w) = 10 bubbles in 70 seconds
3v @ .124a (0.41w) = 10 bubbles in 73 seconds
12v @ .124a (1.488w) = 10 bubbles in 73 seconds
12v @ .124a (1.488w) = 10 bubbles in 73 seconds -This was after taking a 10 minute break

Now as you can see we're looking at a 363% increase in effeciency (1.488w / .41w). This is amazing when you finally come to see the fact that if you can just tap the absolute minimum voltage, you can utilize far less amp hours to achieve the exact same gas volume. Folks, we're not even talking about frequencies here. We're just talking straight DC electrolysis!

Now just for kicks, if we utilize the voltage readings that we got when the cell was in series, we get even more spectacular results! (10.95v * .124a) = 1.358w ...contrasted with (1.364v * .124a) = 0.169w ...now we do the final calculation and get (1.358w / .169w) or an 803.55% increase in effeciency! -Holy freaking Cow! -All from straight DC electrolysis.

Guys if you are not simply blown away by these results, you are either a physics/chemistry major (and hence not allowed to even believe in Over Unity *grin*) or you don't know what on earth Electrolysis even is. If however, you're someone like me who knows a fair amount about it now since I have been working with it ...these results should equally blow you away as they did for me.

I am calling on any and all individuals who care to check my results. Please let me know what you find when you do your testing.