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FOCS
2006
IEEE
2006
IEEE
New Limits on Fault-Tolerant Quantum Computation
We show that quantum circuits cannot be made faulttolerant against a depolarizing noise level of ˆθ = (6 − 2 √ 2)/7 ≈ 45%, thereby improving on a previous bound of 50% (due to Razborov [18]). More precisely, the circuit model for which we prove this bound contains perfect gates from the Clifford group (CNOT, Hadamard, S, X, Y , Z) and arbitrary additional one-qubit gates that are subject to depolarizing noise ˆθ. We prove that this set of gates cannot be universal for arbitrary (even classical) computation, from which the upper bound on the noise threshold for faulttolerant quantum computation follows.
Real-time TrafficAdditional One-qubit Gates | FOCS 2006 | Noise Level | Quantum Circuits | Theoretical Computer Science |
Related Content
| Added | 11 Jun 2010 |
| Updated | 11 Jun 2010 |
| Type | Conference |
| Year | 2006 |
| Where | FOCS |
| Authors | Harry Buhrman, Richard Cleve, Monique Laurent, Noah Linden, Alexander Schrijver, Falk Unger |
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