Quantum cellular automata - Document - PDFSEARCH.IO

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	Logic in Wire: Using Quantum Dots to Implement a Microprocessor Michael T. Niemier, Peter M. Kogge University of Notre Dame, Computer Science and Engineering, Add to Reading List Document Date: 2001-03-14 15:20:28 Open Document File Size: 322,59 KB Share Result on Facebook City San Jose / / Company Prentice Hall Electronics / / / Facility University of Notre Dame / Peter M. Kogge University of Notre Dame / / IndustryTerm actual processor / minimal hardware / conventional electronics / logical device / logical devices / lowest energy state / to even more complex systems / / Organization Semiconductor Industry Association / University of Notre Dame / US Federal Reserve / / Person Michael T. Niemier / / Position driver / / ProvinceOrState New Jersey / Oregon / California / / PublishedMedium Journal of Applied Physics / / Technology Quantum Dots / actual processor / lithography / VLSI technology / CMOS technologies / finite state machine / integrated circuits / QCA technology / / SocialTag Digital electronics Electronic design Automata theory Quantum dot cellular automaton Digital circuits Quantum cellular automata Flip-flop Clock signal Logic gate Electronic engineering

Logic in Wire: Using Quantum Dots to Implement a Microprocessor Michael T. Niemier, Peter M. Kogge University of Notre Dame, Computer Science and Engineering,Add to Reading List