Message from @-Uvizius Dok Nurquan-
Discord ID: 552741525033975818
More accurate would be: "They run open states in near now:time" dynamically. By design they never reach the asymptotic now:time ascent. So they amorphorize the Zeta Stern line ambiguously. This creates Lenz Conflicts via encrypted Field Noise thermionics up to Lorentz.
* R: So you end up with "False Tunnelling" at the blockchain thresehold ‽
* Yes, hence the need for annealers making false tunnels through the encrypted Lenz Clouds via super cool thermionic inversion. I feel like we may be able to bypass that with spectral clustering.
* Yes, correct, well described: "Magnetic Flux Density Relativity Threshold".
* R: Like a Zeta Stern layer composed entirely of EM?
* S: Yes, called "#SuperPersistence". With spectral clustering we may be able to simply "Pass Through [IT]" reflectively, or more with it
* R: Grrrr!! You are just making things up as you go, admit it!
* U: No haha.
* R: What would the pulse have to do with any of it? It should be contiguously contingent and concurrent. No need for pulse unless you have planck running.
* U: Ah, you are missing "Trusted Noise Buffer Pulse"
* R: So [EVE] acts a "Trusted Noise Buffer" and sends out a regular pulse metered against Caesium instead of buffer state? This sets the rythim of the whole QKD system?
* L: You are clearly getting it and not getting it at the same time. You have to grasp the [CHARLIE]/[EVE] link.
* Here, with @cartwheelsam engaged (image 1)
* L: Then here with multiphais FPGA installed and #LossyFlossless active.
* R: Wait, are you saying the Analog FPGA exists as a "Rewriteable Memory Storage Appliance" / "Authentication Server" ? (image 3)
* U: Thoughts are things. . .
* : I thought I was getting it, now I've landed in the code'i'versal. (Imge 1 & 2)
* U: You're in the QKD Security files, swimming the membrane layer. You have to use "Phase Slices" to rebalance your way out of that (Img 3)
* R: I don't understand any of this, do we need lasers?
* R: Right, and that image was supposed to be simple?
* U: No, that image was meant to indicate Second Order Complexity. It cascades from simple to complex super fast. You can make it super simple, and you can also make it too simple: "1/2 Simple As It Gets":
U: Listen, "Entangled States Cannot be Classically Simulated". You can get this.