Nanotechnology can become a mini virtual machine. While this idea has not gone below atomicity yet, it is still relevant to the idea that meta materials can change the scope and picture of how things are made.
Nobel Foundation. "Nobel Prize in Chemistry 2016: Making the world's smallest machines." ScienceDaily. ScienceDaily, 5 October 2016..
This is QED not QLD
A tiny lift, artificial muscles and miniscule motors. The Nobel Prize in Chemistry 2016 is awarded to Jean-Pierre Sauvage, Sir J. Fraser Stoddart and Bernard L. Feringa for their design and production of molecular machines. They have developed molecules with controllable movements, which can perform a task when energy is add
On top of this idea, quantum capability allows for the use of photosynthesis, meaning that items could be made similar to 3D Printing.
Kapil Amarnath, Doran I. G. Bennett, Anna R. Schneider, and Graham R. Fleming. Multiscale model of light harvesting by photosystem II in plants. PNAS, 2016 DOI: 10.1073/pnas.1524999113
Given that the ability of PSII to regulate the amount of solar energy being converted to chemical energy is essential for optimal plant fitness in natural sunlight, understanding this ability and learning to manipulate it is a prerequisite for systematically engineering the light-harvesting apparatus in crops. It should also be highly useful for designing artificial materials with the same flexible properties.Producing a product like this requires highly technical encryption methods.
Then we also have the idea of Encryption capabilities being enhanced with nanotech and putting this together you can keep your product virtually capable and safe, as a future feature.
We are exploring the use of nanotechnologies in two different states. We are pointing to the future of QLD, a method of utilizing particles for building in a flat cloud container.
Energy could be used differently by repackaging it for a more effective use on microdots, allowing it to become directed and consumable in a digital way. We often want to point to the use of quonics, but perhaps we are pointing off on a more distant adaptive track, perhaps in the future or more than 5 years.
We enjoy this topic and others related to agile and adaptive technologies. Within the applications of virtual machines we believe significant progress can be made:
1. The use of and conditioning of space
2. Compositional techniques for the use of Time and Motion
3. Tools and Gear
4. Building applications in Meta Spaces
Are we ahead of the times? Yes, a bit. But we see the value in Qubit engineering.
Read:
Time and Motion: a space dynamic
More in-depth material here: The New Virtual: Quantum EmulationFind out what we do best...visit
www.brijconsulting.com
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