Volume 2 | Issue 3 | March 2022
Cosmology of Light Newsletter
Hello Friends,

I am glad to report that on February 21, 2022, I successfully filed an application for a nonprovisional patent for a Reconfigurable Atom-Based Quantum Computer (RABQC).

The RABQC is focused on generating, interpreting, and testing quantum-level phenomena at multiple levels of granularity, including dynamics at the quantum veil, at the level of quantum particles, at the level of atoms, of molecules, and at the level of cells. Such a trajectory proved to be the natural outcome of my multi-year journey to summarize a Cosmology of Light in ten books.

The RABQC, hence, functions as a sophisticated "microscope" to not only perceive quantum-level dynamics but also to intentionally generate a range of quantum-level phenomena.

Such an approach is necessary at this early stage in the lifecycle of quantum computation to better understand the nature and dynamics of the quantum-level, and in this newsletter, I briefly introduce a logical sequence anchored around this objective:

  1. Exploring the nature of quantum-level substance
  2. Leveraging insight into such substance, as does QIQuantum, to build the RABQC specified by the aforementioned nonprovisional patent
  3. Laying the foundations for future technology development, based on a QIQuantum-like project and perceiving the quantum level differently

Best Wishes,
Pravir
Quantum-Level Substance
To build an effective computational device - whether at the quantum-level, the level of atoms, or the level of cells - requires a framework for understanding what may be happening at that level.

In the contemporary assessment of the quantum-level, we appear to have simplified possible dynamics by resorting to probability and statistics to generalize what may be happening in a "black box" supposedly marked by randomness, superposition, and entanglement.

By contrast, the approach taken in designing the RABQC assumes a unified model of reality in which the quantum-level acts as a logical bridge between that which is antecedent and hidden and that which cohesively expresses itself at multiple levels of material granularity.

The following blogpost further elaborates such "quantum-level substance" that must be considered in the design and functioning of any quantum computer:


QIQuantum
QIQuantum (Quaternary Interpretation Quantum) is spearheading the development of a reconfigurable atom-denominated quantum computer built on quaternary principles of organization true of light, matter, and life. 

This computer embodies a revolutionary approach to quantum computing based on a different “sight” of the dynamics true at the quantum-level. This computer will side-step the inevitable dead-end assured by following the Copenhagen Interpretation of Quantum Mechanics, by basing itself instead on an alternative Quaternary Interpretation of Quantum Mechanics (QIQM). 

This computer is based on recognition of fourfoldness, and hence will neither follow conventional binary-based nor qubit-based logic but will be based on fourfold logic exercised by unique fourfold-type gates. This fourfold logic has been encapsulated by a function-based mathematics (Fourfold Function-based Mathematics of Light or FFFMOL). 


Foundations for Future Technology Development
What happens at the quantum level is fundamentally important in envisioning possibilities for the future development of technology.

If, as I have argued in numerous writings, quanta are a bridge mechanism between information in Light traveling faster than c and the materialization of that information in the layer of reality defined by speed c, and that therefore the emergence of quantum-objects is not just random but a shadow thrown by such antecedent order, and that further the quantum realm is replete with fourfold patterns yet to be recognized and acknowledged, this is going to give the world an entirely different trajectory of technology development. 

The following blogpost explores this suggestion in greater detail:

Selected Recording
The New Look of Quanta
I was interviewed by Engati CX recently on my take on quantum computing. The youtube video covers the following questions:
  1. What are the key principles of quantum theory that have direct implications for quantum computing?
  2. What are the main challenges in building a scalable software system stack for quantum computing?
  3. There is much speculation regarding the cybersecurity threats of quantum computing. What is your take on this?
  4. What is the current status of research in quantum computing? What is the vision ahead for quantum computing? 
  5. Are there any other soundbites that you would like to leave with our audience?