On August 25 2022, I presented a keynote at TechHR-Singapore, Asia's largest HR & Work Tech Conference. I spoke shortly after Daniel Kahneman, Economic Sciences Nobel Laureate, and for the first time publicly projected QIQuantum - my vision of quantum computation - on a global stage.
In this brief 20-minute keynote my primary goals were to summarize the essential difference between existing pursuits of quantum computation and that embodied by QIQuantum, to suggest some representative applications based on the latter, and to indicate how these could be achieved in a shorter time-frame and at a much lower price-point than approaches currently being pursued by existing industry leaders such as Google, IBM, Intel, amongst others.
Essentially there are three components to QIQuantum's approach to light-based quantum-computation:
- Quanta are conceived as a bridge-mechanism precipitating some of the infinite information that exists in the quantum field operating at the boundary of material manifestation, into the 'stable' material layer created by light traveling at a constant speed of 'c'.
- Insight into the dynamics of what is happening at the quantum-level is provided by a process of 'reverse extrapolation' where the essential and visible fourfold architecture of life and matter are seen to originate at quantum levels.
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Genetic information that is instrumental in dictating operational realities at the level of living cells, is seen to have counterparts of genetic-type information at each preceding layer of matter and life, and further, is seen to be the essential output of a persistent quantum computation occurring from moment to moment.
These components arise naturally in a cohesive light-based mathematics as articulated in the Cosmology of Light book series, and is created in contrast to the facile, primarily statistical-probabilistic quantum-level mathematics that is envisioned to drive the development of quantum computers being developed by industry leaders.
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