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#REDIRECT [[Superconducting computing]]
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{{Article for deletion/dated|page=Reciprocal Quantum Logic|timestamp=20140321134821|year=2014|month=March|day=21|substed=yes|help=off}}
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'''Reciprocal Quantum Logic''' (RQL) is a new kind of [[superconducting logic]],
invented by Quentin Herr at [[Northrop Grumman]],
which uses [[reciprocal pairs]] of quantized single [[magnetic flux]]
pulses to encode classical logic bits.<Ref>Superconducting Logic Circuits Operating With Reciprocal Magnetic Flux Quanta, University of Maryland, Oberg, Oliver Timothy, 2011</ref>
In Reciprocal Quantum Logic (RQL) the data is encoded in
integer units of the magnetic flux quantum. RQL gates
operate without the bias resistors of previous
[[superconducting logic]] families and dissipate several orders
of magnitude less power. Key RQL gates include:
[[AndOr]], [[AnotB]], Set/Reset, which together
from a universal logic set and provide memory capabilities.<Ref>Superconducting Logic Circuits Operating With Reciprocal Magnetic Flux Quanta, University of Maryland, Oberg, Oliver Timothy, 2011</ref>
==References==
<references/>
==Also See==
*[[Josephson junction]]
*[[superconductivity]]
*[[digital logic]]
*[[Niobium]]
*[[microwave]]
[[Category:Logic families]]
[[Category:Integrated circuits]]
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