Specifications for error corrected balanced logic gate implementation...
initialize five Qbits as one 3/5 error corrected Qbit.
implement balanced logic gates EI (either) and AND. Correlating couplings for odd (EI) and even (AND) logic states.
test the lower limit of anneal/quench times for successful error corrected DETERMINISTIC binary computation, benchmarking of Coldware.
I feel like the guy with the odd shirt for suggesting that classical binary operations be implemented in Coldware. I think the technology and the chip manufacturing have matured. Solving for matrices had been the focus of QPU processing. Now we might implement faster processing of less scientific workloads as well ..quantum processing, for organizations and individuals.
In defense of this EI (either) approach, it does present the ability to perform important scientific calculations.
The method provides error correction unless the same noise/interference happens three times. Cosmic radiation? ..less problematic.
Chimera architecture can provide 400 of these error corrected logical Qbits
The coming Pegasus architecture can initialize at least 800 logical Qbits.
What scientific applications exist for such a long string of bits that would seem to operate "like" a classical computer?
..astrophysics, a method for handling inter-stellar flight-path related calculations such as those required to plan and monitor a voyage to the planet Mars.
This would make available an alternate scientific function for cases that require computing outside of matrices. Unusually large values can be computed, a sequencial binary operation upon an astronomical (scientific precision) value held in logical Qbits.
Scientific function was not the original intent of this exercise, it was more about developing EI (either) logic itself. Ideally the more fundamental "unit" of boolean-like logic EI is intended to allow modelling of classical computing environments.
A bridge for applying quantum mechanics to processing "non-scientific" applications. Much of the processing we do, even on hand-held devices, can eventually be done by quantum processors.
DWave offers one minute of free quantum processing. I have not made use of the service yet, here is why...
Along with refreshing my knowledge of mathematical formulae and scientific notations, I also enjoyed studying the history of computing.
The WWII era systems implemented as scientific calculators were particularly interesting. What stands out about the era was the value of computing resources at that time.
Each individual tasked with computing solutions was required to prepare and program their tasks BEFORE submission.
This is the first time I have had to prepare a task to be computed with so much research and theoretical application. I certainly have a better appreciation for computing resources. I grew up with Commodore 64 ..there was no need to prepare and apply before using the computer. First they were available in academic situations then came home computing.
..my first computer program was written on unbleached paper while sitting at my grandfather's table. When I input the BASIC code into the C64, it executed (preparation).
I suppose that was the last time I prepared a job (computation) away from the computer and entirely in written form.