Universality and programmability of quantum computers |
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| Authors: | Willem Fouché Johannes Heidema Glyn Jones Petrus H Potgieter |
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| Affiliation: | 1. Department of Decision Sciences, University of South Africa, PO Box 392, Unisarand, 0003, Pretoria, South Africa;2. Department of Mathematical Sciences, University of South Africa, PO Box 392, Unisarand, 0003, Pretoria, South Africa;3. Department of Physics, University of South Africa, PO Box 392, Unisarand, 0003, Pretoria, South Africa |
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| Abstract: | Manin, Feynman, and Deutsch have viewed quantum computing as a kind of universal physical simulation procedure. Much of the writing about quantum logic circuits and quantum Turing machines has shown how these machines can simulate an arbitrary unitary transformation on a finite number of qubits. The problem of universality has been addressed most famously in a paper by Deutsch, and later by Bernstein and Vazirani as well as Kitaev and Solovay. The quantum logic circuit model, developed by Feynman and Deutsch, has been more prominent in the research literature than Deutsch’s quantum Turing machines. Quantum Turing machines form a class closely related to deterministic and probabilistic Turing machines and one might hope to find a universal machine in this class. A universal machine is the basis of a notion of programmability. The extent to which universality has in fact been established by the pioneers in the field is examined and this key notion in theoretical computer science is scrutinised in quantum computing by distinguishing various connotations and concomitant results and problems. |
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| Keywords: | Universal quantum computers Programmable quantum computers Universal quantum Turing machine Universal quantum logic circuits |
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