Step 1: OBSERVATION
The PAXV observation was centralized on the time, money, and effort spent attempting to stabilize and secure digital devices and systems. This step was very important in developing a single-minded focus on the problems and potential solutions of digital operations. The PAXV observation was obviously oriented outside of the digital ecosystem as the digital device itself is not the problem and works well. From the generation of energy to the delivery of voltage/current pairs to individual digital components is where vulnerabilities were determined to exist and where the answers to the issues must reside.
Step 2: QUESTION
Once we had made our observation, we formulated a question regarding the vulnerabilities within the energy structure as applied to digital components. The question most obviously requiring an answer is: Why do digital designs require an abstraction of electricity to 1 or 0? Why is 1 or 0 used to illustrate functional requirements of a digital platform when operational requirements are based on measurements not on physical elements? Why are analog signals abstracted to nonanalog constructs?
Step 3: HYPOTHESIS
The hypothesis is critical to understanding the PAXV approach. When the first digital circuit was invented to establish a two-state logic, the circuit required a very specific input in order to set one of the logic states. The invention was designed in an analog ecosystem and therefor rarely set the desired circuit state. As a condition of success for the two-state circuit a range of voltage was allowed to actually set the state of the circuit. Because analog signals are very fast and unpredictable a range allowed for the circuit to more accurately and predictably set the state of the circuit. By allowing a range of voltage/current values to set the state of the circuit there was a greater chance of setting the state to one value, on (1) or off (0), than when a specific voltage/current value was required.
The purpose behind the PAXV experiment is to perform the digital transformation as the signal transits to the digital component. Because digital architecture conditions the signal onboard (after arrival) there is a vulnerability known as a variance. The PAXV theory is that most threats and attacks will be identified and eliminated before the signal arrives at the digital destination. The PAXV solution is not intended to replace a digital component but to provide a stable, predictable, and value-based signal that is known to the architecture.
Step 4: EXPERIMENT
The PAXV experiment conducted on a CAT6 wire within a digital networked environment was intended to expose the unpredictable nature of electrical values and the unknown content of the combinations of wires contained in a CAT6 cable. The nature of energy (physics term for current) is a particle and is highly predictable but the nature of current (amperage) is a measurement of energy. There is an infinite amount of energy on every CAT6 wire in the experiment and less than .005% of the energy measured is intended for the digital architecture and the remainder is unknown and unidentifiable. With the PAXV circuit there will no longer be dangerous, harmful, and/or unwanted energy granted access to the digital ecosystem.
Step 5: RESULTS
The results of the experiment are conclusive in that mankind can never know the meaning of every individual signal on any wire or transiting through the air. However, every particle of energy has a presence that has an explanation and PAXV’s objective is to identify the digitally intended. By identifying, conditioning, and signing every digitally intended signal PAXV will provide a stable, secure, and individually identifiable mechanism for digital operations.
Step 6: CONCLUSION
It is concluded that by conducting energy operations on electrical signals as they transit any media there is a high probability that all adversely intended digital signals will be identified, corrected, and/or eliminated prior to reaching any target. It is shown that patterns that present in digital constructs are also represented in analog flow. There is no exception, to any digital signal in transit or being processed, that prevents physics from presenting the construct as energy.
Never Ending
The scientific method is a never-ending process. PAXV is a true scientific organization endeavoring to understand how quantum mechanics, properly applied, control digital environmental outcomes. For a century or more digital circuits have been separated from the electrical conversation because of disinformation regarding how digital processes differs from analog. In truth and according to physical law there is no digital but a compartmentalization of analog signals.
There is a pattern in PAXV that indicates every conclusion generates more questions and for each question asked the method must be applied. Science is the art of questioning everything that you believe, think you know, and want to understand while practicing the very subject you question. Is energy voltage? No. Is energy amperage? No. Is energy real? Yes. If those three questions are true than why do computers not use energy? The tough part of this understanding is in measuring the particle, the energy of the particle, and proving the particle exists in the electrical signal.
Do not look to PAXV for absolute answers but join us in absolute science.