The promise of high-rate low-density parity check (LDPC) codes to substantially reduce the overhead of fault-tolerant quantum computation depends on constructing efficient, fault-tolerant implementations of logical gates on such codes. Transversal gates are the simplest type of fault-tolerant gate, but the potential of transversal gates on LDPC codes has hitherto been largely neglected. We investigate the transversal gates that can be implemented in hypergraph product codes, a class of LDPC codes. Our analysis is aided by the construction of a symplectic canonical basis for the logical operators of hypergraph product codes, a result that may be of independent interest. We show that in these codes transversal gates can implement Hadamard (up...
We provide a simplified yet rigorous presentation of the ideas from Bombín's paper (arXiv:1311.0879v...
The employment of quantum error correction codes (QECCs) within quantum computers potentially offers...
Performing quantum computing that is robust against noise will require that all operations are fault...
The promise of high-rate low-density parity check (LDPC) codes to substantially reduce the overhead ...
In a fault tolerant quantum computer, quantum codes are expected to serve the conflicting purposes o...
Quantum computation has shown advantages in several problems over the corresponding classical algor...
A method for the implementation of a universal set of fault-tolerant logical gates is presented usin...
International audienceHypergraph product codes are a class of constant-rate quantum low-density pari...
International audienceFinding good quantum low density parity check (LDPC) codes is an essential ste...
It is an oft-cited fact that no quantum code can support a set of fault-tolerant logical gates that ...
International audienceA practical quantum computer must not merely store information, but also proce...
Recently, S. Bravyi and R. König [Phys. Rev. Lett. 110, 170503 (2013)] have shown that there is a tr...
For a quantum error correcting code to be used in practice, it needs to be equipped with an efficien...
Error-correcting codes protect quantum information and form the basis of fault-tolerant quantum comp...
We study the performance of medium-length quantum LDPC (QLDPC) codes in the depolarizing channel. On...
We provide a simplified yet rigorous presentation of the ideas from Bombín's paper (arXiv:1311.0879v...
The employment of quantum error correction codes (QECCs) within quantum computers potentially offers...
Performing quantum computing that is robust against noise will require that all operations are fault...
The promise of high-rate low-density parity check (LDPC) codes to substantially reduce the overhead ...
In a fault tolerant quantum computer, quantum codes are expected to serve the conflicting purposes o...
Quantum computation has shown advantages in several problems over the corresponding classical algor...
A method for the implementation of a universal set of fault-tolerant logical gates is presented usin...
International audienceHypergraph product codes are a class of constant-rate quantum low-density pari...
International audienceFinding good quantum low density parity check (LDPC) codes is an essential ste...
It is an oft-cited fact that no quantum code can support a set of fault-tolerant logical gates that ...
International audienceA practical quantum computer must not merely store information, but also proce...
Recently, S. Bravyi and R. König [Phys. Rev. Lett. 110, 170503 (2013)] have shown that there is a tr...
For a quantum error correcting code to be used in practice, it needs to be equipped with an efficien...
Error-correcting codes protect quantum information and form the basis of fault-tolerant quantum comp...
We study the performance of medium-length quantum LDPC (QLDPC) codes in the depolarizing channel. On...
We provide a simplified yet rigorous presentation of the ideas from Bombín's paper (arXiv:1311.0879v...
The employment of quantum error correction codes (QECCs) within quantum computers potentially offers...
Performing quantum computing that is robust against noise will require that all operations are fault...