Pulsing Pterohulker and a Bonefide Congruency Stablizer? Yes.

Author: Tellurius

Don’t scoff at me yet, because while your Quantum Predictor Manifold is chugging at megaflop, max, I’m clocking in eleven times that, okay? Just, hear me out.

It’s been a long desired set up, hasn’t it? The Pterohulker is just a little to fast… the field distortions are irregular… the thetas are good, until you want to break two terahertz. That’s when it all goes down hill. The Quantum predictor starts glitching out. The makeshift congruency stabilizer you build out of a phaser array from a Cryptosager’s sinusoidal Heimboltz Field Rectifier is starting to smoke, then POP. The lights go off and plasma is leaking out of the chamber.

You scream into your underground cooling tower bank in frustration.

The system’s going to be down all night, now, Icarus.

The morning sun beams into your lab. You’re fried from running calculations all night. Frayed. You crawl to your charging station, running on back up power.

“That’s it…” You gasp, “could it be that simple?”

The field Rectifier is a step power amplification processor with digital power scaling following a linear scale. The Pterohulker actually follows a natural logarithmic function, as testing data reveals… does two terahertz make sense now? ln(e)+1 = 2. As soon as the Pterohulker surpasses this threshold, it spirals out of control with ever increasing power needs from the PAP (power amplification processor). The PAP can’t keep up, the discrepancy becomes astronomical.

“How can it be made to keep up, Tellurius?” Phew, I’m glad you asked.

  1. Get out that smoking heap and replace the complexer (since its fried anyway) and on the new complexer, replace the power distributor core with another that can handle at least 900K. Yes, even if you have a cooling system.

  2. The complexer runs to the step digitizer, uhh… override that.

  3. Instead of the digitizer, route though an oscillator with a rating of 10K Volts @60A. (bigger is fine)

  4. The hard part: synchronizing the oscillator with the pterohulker’s frequency tuner and its field generator. Trying to have a computer handle this will not be fast enough. The calculations are too slow. It’s a balancing act that will need nearly instantaneous input to output adjustment from the oscillator to manage the frequencer and the field generator, kinda the point of congruency stabilization, right? Deviation is magnified by proportional to the natural log. I guess, you COULD have a computer calculate it. See if it can keep up.

    1. The Tuner: The chipset is straightforward, but very small. Please do not ruin it by shorting XC7 through 10 when you connect XC8 and 9, you got this.

    2. The Field Generator: the tuner will now be sending the correct signals out to the oscillator. The generator’s stator will spin according to input from the positronic manipulated synchronitron, “the clicker”. What you're going to do is reroute the clicker to the oscillator with a Rowan Complexer in the pure sine configuration.

  5. When you put the equipment back together, and turn on the breaker, make sure it’s in the lowest power setting before charging up the capacitors because you don’t want to redo all that hard work after you get out of the hospital. In the low power state, gently ramp up the thetas listening for any whirring. There shouldn’t be an issue, but that’s why we check.

  6. Finally, ramp past 2 terahertz and kiss erratic readings goodbye.

I have several tests to run, so to finish up:

If done correctly, you will have an auto-adjusting congruency stabilizer that can reliably manage super 2 terahertz that will actually calibrate correctly. I’m Interested to see what extremes this fix can handle, if there are any real lag times. Theories dont always play out just how we like them to.

TELLURIUS

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