Difference between revisions of "Quantum Multiplexors"
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The introduction of quantum computing made possible an exponential increase in the algorithmic processes that could be computed simultaneously by a single processing core. Quantum multiplexers are necessary to enable multiple complex systems to be regulated by a single quantum signal matrix instead of each system requiring its own matrix to communicate with the quantum processor core. This translates to savings in physical space, energy consumption, and an overall increase in system efficiency. | The introduction of quantum computing made possible an exponential increase in the algorithmic processes that could be computed simultaneously by a single processing core. Quantum multiplexers are necessary to enable multiple complex systems to be regulated by a single quantum signal matrix instead of each system requiring its own matrix to communicate with the quantum processor core. This translates to savings in physical space, energy consumption, and an overall increase in system efficiency. | ||
Revision as of 20:41, 28 July 2009
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Quantum Multiplexors
The introduction of quantum computing made possible an exponential increase in the algorithmic processes that could be computed simultaneously by a single processing core. Quantum multiplexers are necessary to enable multiple complex systems to be regulated by a single quantum signal matrix instead of each system requiring its own matrix to communicate with the quantum processor core. This translates to savings in physical space, energy consumption, and an overall increase in system efficiency.
