D. Edward Mitchell 16:00, 14 April 2020 (UTC) Hello World!    groupKOS Developer Share —usually UNDER CONSTRUCTION

1/f noise drift

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Quasi Axiomatic Theory Noise Analysis Project edit

Draft —  still congealing thoughts

And hello from your past, but even back then this project went dark on my personal work bench... it just got to weird to be public. It wasn't meant for the public, but only limited builds. That comes home now.

1/f noise drift in the developer's context refers to the variation over time of the spectral profile of the 1/f noise power envelop.

The drift 'sensor' is algorithmic, operating on a log file of data electronically logged from a run period of the noisy ring oscillator.

The 1/f Drift Project, is a development toward a computer display console of the harmonic and transient energy content of a self-oscillating ring of oscillators. This design will evolve toward something useful. Click the Button

Through mapping the spectral contours of the 1/f noise components of a toroidal array of step-phased copper loop dipole resonators —abstracted as a fiber bundle describing a torus surface one might envision a probability map of harmonic entities.

Update 2020.12 — Bingo! Lock and load

The full concept closure arrived, with detail providing design closure and test theory. And well, some red-facedness... I was off track on places, missed the turn a few years ago in some places. But finally.

The reverse-amateur-engineering of disclosure 2013 description complete. Project space included hackaday.io. Project components are tagged with 'hexatron'.

For a ringside to escalating progress, lurk The Button

Update 2020.09 PsīP

The end result seems to be entrainment of local quantum timing with the mind causing a timing-wave within local reality.

Local quantum timing with sentient wave-forms within the noise of quantum, when amplified, also serve to project the sentience of the universe into human awareness.

The entrainment bridge is assumed to be in wave-frequencies above the quantum-resonance of the nano-tubes within neurons. (Penrose-Hameroff, Orch-OR)

The lowest frequency of quantum-wave-functions in tubulin, as measured [? cite me], are around 40 cycles per second, and up, with resonant centers. This is the recharge-and-quantum-collapse timing of neuron tubulin, as our extra-corporeal patterns of mind, somewhere --not in body, animate and mediate human sentience. (A stretch on Penrose-Hameroff, but hey it's rough drapht PsīP.)

PsīP initiative: Produce believable script for a movie pilot. The movie props include a working hyper-resonator. It will need blinking lights.

New blinkin' lights

  • Gang-able 12-bit Ripple Counter (74HC4040) with LED-s that flash on and off with each section of the ripple counter, is implemented in the new light of the September 2020 design paradigm shift. The new focus is the preservation of leading-edge timing-information of oscillator toggles.

The ripple counters preserve pulse-timing, as a propagation delay-chain that remains constant. The functionality of a binary ripple counter is for dividing the sampling rate by two at each counter latch.

The pulse-time preservation allows transfer of cross-time dynamics of the source anomaly into the ring-oscillation power-levels. This is assumed to afford bifurcation point entrainment of regular signals ambient in the noise floor.

The ambient quantum-noise-floor signal seems just as random with or without a mind nearby to influence a touch of wave-coherence in the quantum randomality. The effect of a touch-of-mind upon proximal reality is timing-waves of regularity in randomality.

QATNAP is a project to 'look for textures in the flatness of randomality' in the harmonic regularities of the edge-jitter-noise of an over-driven, chaotic hexatron at the bifurcation point affording regularity-entrainment. Other constrainsts apply, also.

The Resonant-X Project will attempt to randomize a ring-amplifier past limitations of a harmonic envelope [cite right spot here about random-pulse power-switching efficiency research]. The Resonant-X is fabricated to scale such that the natural-resonant frequency puts the harmonic wavefront at superluminal velocities. Data from these tests will be fresh.

PsīP Timing-wave update 2020.09

In a slow-motion avalanche of realization of design-principles to produce the device of vision-through-disclosure, the Spherical Moire discovery in 2010 has already documented an animated timing-wave.

Real comp sci

The real algorithms used in 2000-2001 involve categorizing the values of measurement data 'events' and comparing each event of a simultaneous relationship with a category of some other measured parameter.

Codasaurus Hex was clueless, but now opinions fly! I think the 'quasi' term in 'Quasi Axiomatic Theory' refers to using stringent data from a subjective selection of criteria.

In the QAT paradigm, if the available sensor data doesn't reveal conjectured correlations, then get more data, and conjecture wider hunches. Wider hunches means sensorization and analysis of more flavors of data coincident with the data measurement.

The technology expressing this

The ultimate widget to be built is a switch, a power-switch for DC high current with these features:

  1. The smart-fast-power-switch threaded copper lug (with nuts included) accepts or rejects or delays a signal —artificially, based on plausibility mapped AI working in the embedded μP.
  2. mounted inside a big copper threaded lug that serves as a power connection lug for high-amperage current switching. Picture welder cable connectors. Non-ferrous material.
  3. A small connector on the switch for serial data to a tiny [[&muP;]] embedded inside the copper smart-lug. The smart-lug is loaded with a probability map of what to do any any of many-many timing events. This can be disconnected for operation if it interferes with oscillator conditions.
  4. A small input-sense connector, which accepts a signal-connection from the previous phase in the ring.
  5. The output signal is the same as the switched-section of the power-stud, which is conductively threaded into a copper resonator element.
  6. A main power connection as ring-sections of the threaded bolt shank to facilitate stacked connection of power loops.
This facilitates a heavy-gauge low-inductance power-buss as heavy gauge multi-strand flexible copper cable to travel around the perimeter of the ring sections to connect to each smart-stud connected directly to the copper resonant elements.
Copper smart-studs inherently conduct heat into the female-threaded mounting hole in a resonator element being energized. A washer with heat fins could be added. Liquid cooling may be an option.

The embedded plausibility aI map is read-only during run-time. The aI map is engineered on a development bench, and is uploaded to the smart-lug through the serial connection.

Back to now

Early prototypes of principle and refining timing-noise categorization algorithms will be performed at 5 volts DC that powers TTL-CMOS 2-input NAND gates (74HC00). The inverter section output is only the TTL output (milliAmps). This TTL-gated ring oscillator is anticipated to show a rich spectra of timing data to ponder.

after more smarter

After pondering logic-ring performance, then design will switch to a a ring of totem-pole switches <ref> A totem-pole switches an output between power rails, as is commonly used in modern computer power supplies.

The proper power class of power-FET transistors would enable a ring amplifier operating at power levels able to afford magnetic resonant amplification on copper magnetic dipole resonators of the ring array.

When magnetic self-resonance occurs on dipole loop resonators, then that harmonic envelop will cohere with existing ambient fields —also.

The ability of a local resonator to track changes in an ambient field will be a design function of proper scale-resonance of the resonant array. If two resonators match frequency and phase, then they couple —a dual-resonant-coupling.

The energy to un-couple is un-necessary, as the resonance is dissipative, driven. Stopping the driver removes the coupling. It takes two to couple.

The sensitivity of a local oscillator to track frequency drifts is for the system to have a coherence with the micro-variance influencing each switching threshold moment. That resolution is a function of the response-sensitivity of the resonator element to minute changes in an external ambient field.

Update 2020.09 Template:PsiTech of star—mind portal

Recent closure of design principles has simplified the random timing principle as anharmonic pumping pushing the resonant envelop past harmonic conditions of stored energy.

New more-better theory of emergent stability: Over-driven energy in a bifurcation zone will entrain with proximal regularities. The human bio-quantum regularity becomes entrained at quantum-random-event levels.

N-dim variance analysis


Consider also

1/f noise in human cognition: Is it ubiquitous, and what does it mean?
Notes and Comment