Isothermal quantum computing apparatus and materials
First Claim
1. A computing apparatus comprising:
- a) a key that that is either a key molecule, ion, electron or photon and has freedom of motion within a cell body;
b) a cell body that has length, width and height in the range of 10−
9 to 10−
4 meters, defining a cell-volume;
c) wherein walls of the three dimensional cells are made of material that can anchor an antenna-like transmitter/receiver that is capable of transmitting and receiving and re-transmitting a radiant energy pulse;
d) wherein antenna-like processes happen through dissociative key anti-docking and associative key docking that are both reversible processes;
e) wherein dissociative anti-docking and associative docking are coupled events wherein a quantum of energy from associative docking together with negative differential entropy is coupled with the equal and opposite quantum of energy for dissociative anti-docking together with positive differential entropy; and
f) wherein the dissociative key anti-docking and associative key docking coupled events can be used to move a signal of quantized energy.
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Abstract
The subject matter relates to multiple parallel ensembles of early stage spherical pulses radiated through engineered arrays forming the foundation for quantized computer processors taking advantage of integer thermodynamics. The materials, architecture and methods for constructing micro- and/or nano-scale three-dimensional cellular arrays, cellular series logic gates, and signature logic form the basis of small- and large-scale apparatuses used to execute logic, data bases, memory, mathematics, artificial intelligence, prime factorization, optical routing and artificial thought tasks not otherwise replicated in electron-based circuits. Unlike prior art electric-current based computational devices—that by definition dissipate heat and consume significant power to achieve computational output—the types of logic gates described do not shed waste heat and minimally consume power, which is desirable for embedded computers, ultra high-throughput computation, low-power consumption data centers and extended battery life devices.
10 Citations
20 Claims
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1. A computing apparatus comprising:
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a) a key that that is either a key molecule, ion, electron or photon and has freedom of motion within a cell body; b) a cell body that has length, width and height in the range of 10−
9 to 10−
4 meters, defining a cell-volume;c) wherein walls of the three dimensional cells are made of material that can anchor an antenna-like transmitter/receiver that is capable of transmitting and receiving and re-transmitting a radiant energy pulse; d) wherein antenna-like processes happen through dissociative key anti-docking and associative key docking that are both reversible processes; e) wherein dissociative anti-docking and associative docking are coupled events wherein a quantum of energy from associative docking together with negative differential entropy is coupled with the equal and opposite quantum of energy for dissociative anti-docking together with positive differential entropy; and f) wherein the dissociative key anti-docking and associative key docking coupled events can be used to move a signal of quantized energy. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification