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Organism
The time is ripe for creating a quantum computer to carry on the rate of
progress in computer processing power. But there is inherently problems with storing qubits and retrieving their results. The problems start with the unstable nature of the subatomic world and its constituents. To solve this problem, one idea I would like to put forward is to use biology. What I mean by that is to bioengineer a living organism that inherently processes information in order to survive, the lifeblood of its existence. The organism could receive data input via enzymes and this gets around the problem of unstable qubits and the subsequent failure of traditional designs for quantum computing. This would also be the most efficient way of proccesing information because it is at the level of DNA, the code of existence. |
#2
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Organism
Peter Johns wrote:
The time is ripe for creating a quantum computer to carry on the rate of progress in computer processing power. But there is inherently problems with storing qubits and retrieving their results. The problems start with the unstable nature of the subatomic world and its constituents. To solve this problem, one idea I would like to put forward is to use biology. What I mean by that is to bioengineer a living organism that inherently processes information in order to survive, the lifeblood of its existence. The organism could receive data input via enzymes and this gets around the problem of unstable qubits and the subsequent failure of traditional designs for quantum computing. This would also be the most efficient way of proccesing information because it is at the level of DNA, the code of existence. Blotter, or liquid? |
#3
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Organism
"Peter Johns" wrote in message ... : The time is ripe for creating a quantum computer to carry on the rate of : progress in computer processing power. But there is inherently problems with : storing qubits and retrieving their results. The problems start with the : unstable nature of the subatomic world and its constituents. To solve this : problem, one idea I would like to put forward is to use biology. What I mean : by that is to bioengineer a living organism that inherently processes : information in order to survive, the lifeblood of its existence. The : organism could receive data input via enzymes and this gets around the : problem of unstable qubits and the subsequent failure of traditional designs : for quantum computing. This would also be the most efficient way of : proccesing information because it is at the level of DNA, the code of : existence. : : BUT.. Biological systems consist of Atoms, in fact EVERYTHING consists of Atoms and all Atoms are bound to electronic theory anyway.. Why introduce biological complexity to Electronics which deals with Physics at a more in-depth level anyway, All we need do is to refer to proper theoretical working models of the Atom that conform closer to Atoms in reality.. Yes indeed... I am referring to the model of the Atom that most of the Electronics industry have under lock and key away from the general public which includes the educational arena such as Universities. Cheers, -- Peter J Schoen ________________________________________ May the Universe return 100 Fold of your output. |
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