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Matches in DBpedia 2016-04 for { <http://dbpedia.org/resource/Quantum_flux_parametron> ?p ?o }

• Quantum_flux_parametron abstract "Invented by Eiichi Goto at the University of Tokyo, the Quantum Flux Parametron (QFP) is an improvement over his earlier parametron based digital logic technology. Unlike its predecessor, QFP uses superconducting Josephson junctions on integrated circuits to improve speed and energy efficiency enormously. In some applications, the complexity of the cryogenic cooling system required is negligible compared to the potential speed gains. While his design makes use of quantum principles, it is not a quantum computer technology, gaining speed only through higher clock speeds. Apart from the speed advantage over traditional CMOS integrated circuit design is that parametrons can be operated with zero energy loss (no local increase in entropy), making reversible computing possible. Low energy use and heat generation is critical in supercomputer design, where thermal load per unit volume has become one of the main limiting factors.A related technology is the Rapid Single Flux Quantum digital logic.".
• Quantum_flux_parametron wikiPageExternalLink parametron.htm.
• Quantum_flux_parametron wikiPageExternalLink 0080_e.html.
• Quantum_flux_parametron wikiPageID "2850373".
• Quantum_flux_parametron wikiPageLength "1516".
• Quantum_flux_parametron wikiPageOutDegree "19".
• Quantum_flux_parametron wikiPageRevisionID "551624098".
• Quantum_flux_parametron wikiPageWikiLink CMOS.
• Quantum_flux_parametron wikiPageWikiLink Category:Digital_electronics.
• Quantum_flux_parametron wikiPageWikiLink Category:Quantum_electronics.
• Quantum_flux_parametron wikiPageWikiLink Category:Superconductivity.
• Quantum_flux_parametron wikiPageWikiLink Clock_signal.
• Quantum_flux_parametron wikiPageWikiLink Cryogenics.
• Quantum_flux_parametron wikiPageWikiLink Eiichi_Goto.
• Quantum_flux_parametron wikiPageWikiLink Entropy.
• Quantum_flux_parametron wikiPageWikiLink Integrated_circuit.
• Quantum_flux_parametron wikiPageWikiLink Josephson_effect.
• Quantum_flux_parametron wikiPageWikiLink Parametron.
• Quantum_flux_parametron wikiPageWikiLink Quantum_computing.
• Quantum_flux_parametron wikiPageWikiLink Quantum_mechanics.
• Quantum_flux_parametron wikiPageWikiLink Rapid_single_flux_quantum.
• Quantum_flux_parametron wikiPageWikiLink Reversible_computing.
• Quantum_flux_parametron wikiPageWikiLink Supercomputer.
• Quantum_flux_parametron wikiPageWikiLink Superconductivity.
• Quantum_flux_parametron wikiPageWikiLink Thermal_load.
• Quantum_flux_parametron wikiPageWikiLink University_of_Tokyo.
• Quantum_flux_parametron wikiPageWikiLinkText "Quantum flux parametron".
• Quantum_flux_parametron wikiPageWikiLinkText "quantum flux parametron".
• Quantum_flux_parametron wikiPageUsesTemplate Template:Tech-stub.
• Quantum_flux_parametron subject Category:Digital_electronics.
• Quantum_flux_parametron subject Category:Quantum_electronics.
• Quantum_flux_parametron subject Category:Superconductivity.
• Quantum_flux_parametron hypernym Improvement.
• Quantum_flux_parametron type Company.
• Quantum_flux_parametron type Mechanic.
• Quantum_flux_parametron type Physic.
• Quantum_flux_parametron type Redirect.
• Quantum_flux_parametron comment "Invented by Eiichi Goto at the University of Tokyo, the Quantum Flux Parametron (QFP) is an improvement over his earlier parametron based digital logic technology. Unlike its predecessor, QFP uses superconducting Josephson junctions on integrated circuits to improve speed and energy efficiency enormously. In some applications, the complexity of the cryogenic cooling system required is negligible compared to the potential speed gains.".
• Quantum_flux_parametron label "Quantum flux parametron".
• Quantum_flux_parametron sameAs Q7269051.
• Quantum_flux_parametron sameAs m.086s9b.
• Quantum_flux_parametron sameAs Q7269051.
• Quantum_flux_parametron wasDerivedFrom Quantum_flux_parametron?oldid=551624098.
• Quantum_flux_parametron isPrimaryTopicOf Quantum_flux_parametron.