Rockwell's Retroencabulator

We've talked about many different types of technology, and their applications therein, but I wanted to step slightly outside of our regular focus and talk about one of the most incredible advances in reverse manual-spline control, Rockwell's Retroencabulator. The video below goes into pretty good detail about the specifics, but it's important to also consider that when you have multi-spline locking coils, the within-vector differential between sub-level inverse reactants and surface-grade linear modalities is exponential to the pan-thermal extrusion values above octals of 16. Not only that, if consideration isn't given to the fractional pulse spikes that can occur in the Nielsen phase-currents mentioned only briefly in the beginning of the video, the resulting *over*-phase sub-current wouldn't be able to balance out the self-inflective low-voltage sub-bit dropouts. That's why they're there, after all.

Even-so, magneto-reluctance and capacitive diractance, as mentioned in the video, is an inventive way of minimizing transistive backflow at sub-3.6 tetrahetz conductive levels. Toroidal pham-shafts can help with reducing ionic plane-shifting as he correctly mentions, but not when currents are front-flowed at levels outside the operating range of the initial dioptic conductors.

Another possible result is limiting flux overload outputs, lessening safety.