DocumentCode
2913912
Title
New Limits on Fault-Tolerant Quantum Computation
Author
Buhrman, Harry ; Cleve, Richard ; Laurent, Monique ; Linden, Noah ; Schrijver, Alexander ; Unger, Falk
Author_Institution
CWI
fYear
2006
fDate
Oct. 2006
Firstpage
411
Lastpage
419
Abstract
We show that quantum circuits cannot be made fault-tolerant against a depolarizing noise level of thetas = (6 - 2radic2)/7 ap 45%, thereby improving on a previous bound of 50% (due to Razborov, 2004). 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 thetas. 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 fault-tolerant quantum computation follows
Keywords
integrated circuit modelling; quantum gates; Clifford group; circuit model; fault-tolerant quantum computation; one-qubit gates; quantum circuits; Circuit faults; Circuit noise; Computational modeling; Computer errors; Error correction codes; Fault tolerance; Noise level; Physics computing; Quantum computing; Upper bound;
fLanguage
English
Publisher
ieee
Conference_Titel
Foundations of Computer Science, 2006. FOCS '06. 47th Annual IEEE Symposium on
Conference_Location
Berkeley, CA
ISSN
0272-5428
Print_ISBN
0-7695-2720-5
Type
conf
DOI
10.1109/FOCS.2006.50
Filename
4031376
Link To Document