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The Concept Map you are trying to access has information related to:
stringmapcase9, max planck institute for quantum optics (munich, germany), brute force supercomputing method of throwing more processors at a problem, 'noise' of stray electrons (they are supercold as well, stopped and unable to interfere), cryptology, by using and manipulating the electrons around atoms, bits can be 1 , 0 , or a combination of both, japan's attempt to accurately forecast typhoons (and thus be able to warn residents along its coast), institue of quantum electronics (zurich, switzerland), 1 or 0 electromechanically in microprocessors, small but significant miscalculation(s), causing super-fast calculations to run off in the wrong direction, rubidium atoms ( qubits ) are cooled and 'nudged' into a neat and orderly grid, current model, combine many qubits together, earthquake prediction, becasue current codes rely on the fact that some numbers are almost impossible to calculate, today, a problem adding a separate set of numbers increases the computations exponentially, stray electrons, qubits from interacting with each other simply because it is too cold for them to move unless 'prodded to do so', a qubit (quantum bit) instead of a regular bit, weather forecasting, cosmic rays ( nuetrinos ), fields in which extremely large numbers need to be ' crunched in order to solve problems, quantum computing, current laws of computers, looking instead at laws of nature, need for an additional device ( mott insulator ), include trying to avoid error , mit, an egg carton, with individual atoms (the eggs) isolated from other atoms by a crystal of light (a mott insulator ), very large computations at very high rates of speed (compared to today), supercooling of qubits to almost absolute zero , quantum computing time would hardly increase at all when an additional set of numbers are added