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W2084599048 abstract "Quantum algorithms for quantum chemistry map the dynamics of electrons in a molecule to the dynamics of a coupled spin system. To reach chemical accuracy for interesting molecules, a large number of quantum gates must be applied which implies the need for quantum error correction and fault-tolerant quantum computation. Arbitrary fault-tolerant operations can be constructed from a small, universal set of fault-tolerant operations by gate compilation. Quantum chemistry algorithms are compiled by decomposing the dynamics of the coupled spin-system using a Trotter formula, synthesizing the decomposed dynamics using Clifford operations and single-qubit rotations, and finally approximating the single-qubit rotations by a sequence of fault-tolerant single-qubit gates. Certain fault-tolerant gates rely on the preparation of specific single-qubit states referred to as magic states. As a result, gate compilation and magic state distillation are critical for solving quantum chemistry problems on a quantum computer. We review recent progress that has improved the efficiency of gate compilation and magic state distillation by orders of magnitude." @default.
W2084599048 created "2016-06-24" @default.
W2084599048 creator A5022415572 @default.
W2084599048 creator A5032691606 @default.
W2084599048 date "2015-01-24" @default.
W2084599048 modified "2023-10-01" @default.
W2084599048 title "Magic state distillation and gate compilation in quantum algorithms for quantum chemistry" @default.
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W2084599048 doi "https://doi.org/10.1002/qua.24856" @default.
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