<--- Back to Details
First PageDocument Content
Quantum information science / Theoretical computer science / Quantum computing / Quantum mechanics / Fault-tolerant computer systems / Quantum error correction / Toric code / Decoding methods / Error detection and correction / Stabilizer code / Entanglement-assisted stabilizer formalism
Date: 2015-01-30 04:53:48
Quantum information science
Theoretical computer science
Quantum computing
Quantum mechanics
Fault-tolerant computer systems
Quantum error correction
Toric code
Decoding methods
Error detection and correction
Stabilizer code
Entanglement-assisted stabilizer formalism

Maximum Likelihood Decoding in the Surface Code Sergey Bravyi IBM Watson Research Center

Add to Reading List

Source URL: www.qec14.ethz.ch

Download Document from Source Website

File Size: 1,19 MB

Share Document on Facebook

Similar Documents

Maximum Likelihood Decoding in the Surface Code Sergey Bravyi IBM Watson Research Center

Maximum Likelihood Decoding in the Surface Code Sergey Bravyi IBM Watson Research Center

DocID: 1pVvD - View Document

Sparse Quantum Codes from Quantum Circuits Steve Flammia QECDecember 2014

Sparse Quantum Codes from Quantum Circuits Steve Flammia QECDecember 2014

DocID: 1pKde - View Document

Quantum Error Correcting Codes: An introduction Piyush P Kurur Department of Computer Science and Engineering Indian Institute of Technology Kanpur, Kanpur, Uttar Pradesh, India email: ∗

Quantum Error Correcting Codes: An introduction Piyush P Kurur Department of Computer Science and Engineering Indian Institute of Technology Kanpur, Kanpur, Uttar Pradesh, India email: ∗

DocID: 1p1Iw - View Document

Scalable in-situ qubit calibration during repetitive error detection J. Kelly,1 R. Barends,1 A. G. Fowler,1 A. Megrant,1 E. Jeffrey,1 T. C. White,1 D. Sank,1 J. Y. Mutus,1 B. Campbell,2 Yu Chen,1 Z. Chen,2 B. Chiaro,2 A.

Scalable in-situ qubit calibration during repetitive error detection J. Kelly,1 R. Barends,1 A. G. Fowler,1 A. Megrant,1 E. Jeffrey,1 T. C. White,1 D. Sank,1 J. Y. Mutus,1 B. Campbell,2 Yu Chen,1 Z. Chen,2 B. Chiaro,2 A.

DocID: 1oSSu - View Document

PHYSICAL REVIEW A 81, Controlled-NOT gate with weakly coupled qubits: Dependence of fidelity on the form of interaction Joydip Ghosh* and Michael R. Geller† Department of Physics and Astronomy, Universit

PHYSICAL REVIEW A 81, Controlled-NOT gate with weakly coupled qubits: Dependence of fidelity on the form of interaction Joydip Ghosh* and Michael R. Geller† Department of Physics and Astronomy, Universit

DocID: 1a6NR - View Document