Graphing Truth Vectors, States of Quantum Mechanical Logic Gates

I am preparing to take the EI (either) logic to be considered by academics willing to offer rebuttal and "bubble-popping" humbling debate.

To be considered and countered where possible... development history and the symmetries which exist between the EI (either) logic gate and the quantum mechanical function of the Q-bit (implemented using quantum annealing).

As with boxing, the opportunity to spar with the best sharpens away some of the probabilities of risk and failure.

I looked up some of the good folk and their recent contributions to the field of quantum mechanics. There are some interesting developments among their publications.

The initial clash may bring about an exchange of mutual light-shed in areas that needed the fostering and challenge.

Truth vectors, first time I see these. Fun puzzles that lead to fundamental logic.

The diagram seems oversimplified with all the complexities presented by 1+1.

What this accomplishes is a satisfactory quantifiable way to express WHY super-cooled quantum mechanical circuit components are more efficient than their transistorised predecessors.

*****The diagram shows two Q-bits (EI) accomplishing the same logic as ten transistors (XOR).*****

..now we can apply the truths confirmed by our new axiom to support further development of new "cases" that need solutions.

Four Q-bits form two logic gates (EI, AND) that replace the twenty transistors of XOR and NAND.

Solved.

A classical bit to Q-bit ratio of five to one. A circuit component reduction, this also more precisely expresses the same digital logic.

Four Q-bits form two balanced logic gates (EI, AND), these can be configured to model transistorised logic gates (OR, AND). This is still far more efficient than using ten transistors for our most used computational methods.

Balanced logic, can now be demonstrated and applied as the most fundamental of two-channel logic states though it CURRENTLY requires operating conditions beyond those naturally occurring within our known universe.

"Astronomers say the Boomerang Nebula is the coldest known object in the universe. They've learned that its temperature is one degree Kelvin (minus 458 degrees Fahrenheit). That's even colder than the faint afterglow of the Big Bang, which is the natural background temperature of space: colder than space itself." Oct 24, 2013

Super-cooled super-conducting circuits are establishing the operating environment for quantum mechanical components by achieving much colder temperatures, in the order of one tenth of a whole Kelvin thermal unit.

The current implementation of quantum computing can only perform a certain type of computation more efficiently. I think that we needed to correctly identify and express the mechanisms by which quantum processors can operate more efficiently. This would allow the transposition of workloads currently handled by transistors to the more logically efficient development. 5 to 1 component reduction for digital logic structures, exact figures can be summed from the quantified logic gates of SPECIFIC digital logic structures.

In modelling transistorised circuits using quantum mechanical implementations of them, we can quantify and record the current developments by benchmark and comparison through common terms. The transistorised, Boolean and quantum mechanical expressions of the very same LOGICAL function allow comparison. Quantified benchmarking ..while providing data leading insight as to where we might optimise.