Recently, W. Lechner, P. Hauke, and P. Zoller [Sci. Adv. 1, e1500838 (2015)] have proposed a quantum annealing architecture, in which a classical spin glass with all-to-all pairwise connectivity is simulated by a spin glass with geometrically local interactions. We interpret this architecture as a classical error-correcting code, which is highly robust against weakly correlated bit-flip noise, and we analyze the code's performance using a belief-propagation decoding algorithm. Our observations may also apply to more general encoding schemes and noise models
The development of quantum computers requires not only experimental advances, but also theoretical e...
© 2011 Dr. David WangQuantum computers are machines that manipulate quantum information stored in th...
Real-life quantum computers are inevitably affected by intrinsic noise resulting in dissipative nonu...
Recently, W. Lechner, P. Hauke, and P. Zoller [Sci. Adv. 1, e1500838 (2015)] have proposed a quantum...
Sensitivity to noise makes most of the current quantum computing schemes prone to error and nonscala...
2016-12-05Quantum computer is susceptible to decoherence. Therefore, quantum error correction is imp...
Quantum computing has the potential to transform information technology by offering algorithms for c...
We study the decoding transition for quantum error correcting codes with the help of a mapping to ra...
Mapping the decoding of quantum error correcting (QEC) codes to classical disordered statistical mec...
Quantum computing aims to harness the properties of quantum systems to more effectively solve certai...
With the advent of quantum computers, there has been a growing interest in the practicality of this ...
Probing the lowest energy configuration of a complex system by quantum annealing was recently found ...
We study the decoding transition for quantum error correcting codes with the help of a mapping to ra...
Quantum annealing, a method of computing where optimization and machine learning problems are mapped...
Topological quantum computation and topological error correcting codes attracted a lot of interest r...
The development of quantum computers requires not only experimental advances, but also theoretical e...
© 2011 Dr. David WangQuantum computers are machines that manipulate quantum information stored in th...
Real-life quantum computers are inevitably affected by intrinsic noise resulting in dissipative nonu...
Recently, W. Lechner, P. Hauke, and P. Zoller [Sci. Adv. 1, e1500838 (2015)] have proposed a quantum...
Sensitivity to noise makes most of the current quantum computing schemes prone to error and nonscala...
2016-12-05Quantum computer is susceptible to decoherence. Therefore, quantum error correction is imp...
Quantum computing has the potential to transform information technology by offering algorithms for c...
We study the decoding transition for quantum error correcting codes with the help of a mapping to ra...
Mapping the decoding of quantum error correcting (QEC) codes to classical disordered statistical mec...
Quantum computing aims to harness the properties of quantum systems to more effectively solve certai...
With the advent of quantum computers, there has been a growing interest in the practicality of this ...
Probing the lowest energy configuration of a complex system by quantum annealing was recently found ...
We study the decoding transition for quantum error correcting codes with the help of a mapping to ra...
Quantum annealing, a method of computing where optimization and machine learning problems are mapped...
Topological quantum computation and topological error correcting codes attracted a lot of interest r...
The development of quantum computers requires not only experimental advances, but also theoretical e...
© 2011 Dr. David WangQuantum computers are machines that manipulate quantum information stored in th...
Real-life quantum computers are inevitably affected by intrinsic noise resulting in dissipative nonu...