Add to ORKGWe analyze the resource overhead of recently proposed methods for universal fault-tolerant quantum computation using concatenated codes. Namely, we examine the concatenation of the 7-qubit Steane code with the 15-qubit Reed-Muller code, which allows for the construction of the 49- and 105-qubit codes that do not require the need for magic state distillation for universality. We compute a lower bound for the adversarial noise threshold of the 105-qubit code and find it to be 8.33 × 10(−6). We obtain a depolarizing noise threshold for the 49-qubit code of 9.69 × 10(−4) which is competitive with the 105-qubit threshold result of 1.28 × 10^(−3). We then provide lower bounds on the resource requirements of the 49- and 105-qubit codes and compar...
Quantum computing has enormous potential, but this can only be realised if quantum errors can be con...
We consider the problem of optimally decoding a quantum error correction code -- that is to find the...
A non-Clifford gate is required for universal quantum computation, and, typically, this is the most ...
We analyze the resource overhead of recently proposed methods for universal fault-tolerant quantum c...
Concatenation of two quantum error-correcting codes with complementary sets of transversal gates can...
Concatenation of two quantum error-correcting codes with complementary sets of transversal gates can...
Concatenation of two quantum error-correcting codes with complementary sets of transversal gates can...
A practical quantum computer must not merely store information, but also process it. To prevent erro...
Quantum error correction is the backbone of fault-tolerant quantum computation, a necessary requirem...
It has been known that error-correction via concatenated codes can be done with exponentially small ...
This work compares the overhead of quantum error correction with concatenated and topological quantu...
International audienceA practical quantum computer must not merely store information, but also proce...
We investigate a family of fault-tolerant quantum error correction schemes based on the concatenatio...
It has been show by E.Knill (quant-ph/9610011) and D.Aharonov (quant-ph/9611025) that once elementar...
Quantum computing has enormous potential, but this can only be realised if quantum errors can be con...
Quantum computing has enormous potential, but this can only be realised if quantum errors can be con...
We consider the problem of optimally decoding a quantum error correction code -- that is to find the...
A non-Clifford gate is required for universal quantum computation, and, typically, this is the most ...
We analyze the resource overhead of recently proposed methods for universal fault-tolerant quantum c...
Concatenation of two quantum error-correcting codes with complementary sets of transversal gates can...
Concatenation of two quantum error-correcting codes with complementary sets of transversal gates can...
Concatenation of two quantum error-correcting codes with complementary sets of transversal gates can...
A practical quantum computer must not merely store information, but also process it. To prevent erro...
Quantum error correction is the backbone of fault-tolerant quantum computation, a necessary requirem...
It has been known that error-correction via concatenated codes can be done with exponentially small ...
This work compares the overhead of quantum error correction with concatenated and topological quantu...
International audienceA practical quantum computer must not merely store information, but also proce...
We investigate a family of fault-tolerant quantum error correction schemes based on the concatenatio...
It has been show by E.Knill (quant-ph/9610011) and D.Aharonov (quant-ph/9611025) that once elementar...
Quantum computing has enormous potential, but this can only be realised if quantum errors can be con...
Quantum computing has enormous potential, but this can only be realised if quantum errors can be con...
We consider the problem of optimally decoding a quantum error correction code -- that is to find the...
A non-Clifford gate is required for universal quantum computation, and, typically, this is the most ...