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000837690 1001_ $$0P:(DE-HGF)0$$aCampbell, Earl T.$$b0
000837690 245__ $$aRoads towards fault-tolerant universal quantum computation
000837690 260__ $$aLondon [u.a.]$$bNature Publ. Group$$c2017
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000837690 520__ $$aA practical quantum computer must not merely store information, but also process it. To prevent errors introduced by noise from multiplying and spreading, a fault-tolerant computational architecture is required. Current experiments are taking the first steps toward noise-resilient logical qubits. But to convert these quantum devices from memories to processors, it is necessary to specify how a universal set of gates is performed on them. The leading proposals for doing so, such as magic-state distillation and colour-code techniques, have high resource demands. Alternative schemes, such as those that use high-dimensional quantum codes in a modular architecture, have potential benefits, but need to be explored further.
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000837690 7001_ $$0P:(DE-HGF)0$$aTerhal, Barbara M.$$b1$$eCorresponding author
000837690 7001_ $$0P:(DE-HGF)0$$aVuillot, Christophe$$b2
000837690 773__ $$0PERI:(DE-600)1413423-8$$a10.1038/nature23460$$gVol. 549, no. 7671, p. 172 - 179$$n7671$$p172 - 179$$tNature <London>$$v549$$x1476-4687$$y2017
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