Add to ORKGWe investigate a family of fault-tolerant quantum error correction schemes based on the concatenation of small error detection or error correction codes with the three-dimensional cluster state. We propose fault-tolerant state preparation and decoding schemes that effectively convert every circuit-level error into an erasure error, leveraging the cluster state's high threshold against such errors. We find a set of codes for which such a conversion is possible, and study their performance against the standard circuit-level depolarizing model. Our best performing scheme, which is based on a concatenation with a classical code, improves the threshold by $16.5\%$ and decreases the spacetime overhead by $32\%$ compared to the scheme without conc...
A promising approach to overcome decoherence in quantum computing schemes is to perform active quant...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Generation of logical zero states encoded with a quantum error-correcting code is the first step for...
Quantum error correction is the backbone of fault-tolerant quantum computation, a necessary requirem...
We analyze the resource overhead of recently proposed methods for universal fault-tolerant quantum c...
We analyze the resource overhead of recently proposed methods for universal fault-tolerant quantum c...
Knill demonstrated a fault-tolerant quantum computation scheme based on concatenated error-detecting...
Quantum computers can be protected from noise by encoding the logical quantum information redundantl...
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...
It has been known that error-correction via concatenated codes can be done with exponentially small ...
We have previously [11] shown that for quantum memories and quantum communication, a state can be tr...
Fault-tolerant quantum computing will require accurate estimates of the resource overhead, but stand...
Knill demonstrated a fault-tolerant quantum computation scheme based on concatenated error-detecting...
A promising approach to overcome decoherence in quantum computing schemes is to perform active quant...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Generation of logical zero states encoded with a quantum error-correcting code is the first step for...
Quantum error correction is the backbone of fault-tolerant quantum computation, a necessary requirem...
We analyze the resource overhead of recently proposed methods for universal fault-tolerant quantum c...
We analyze the resource overhead of recently proposed methods for universal fault-tolerant quantum c...
Knill demonstrated a fault-tolerant quantum computation scheme based on concatenated error-detecting...
Quantum computers can be protected from noise by encoding the logical quantum information redundantl...
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...
It has been known that error-correction via concatenated codes can be done with exponentially small ...
We have previously [11] shown that for quantum memories and quantum communication, a state can be tr...
Fault-tolerant quantum computing will require accurate estimates of the resource overhead, but stand...
Knill demonstrated a fault-tolerant quantum computation scheme based on concatenated error-detecting...
A promising approach to overcome decoherence in quantum computing schemes is to perform active quant...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Generation of logical zero states encoded with a quantum error-correcting code is the first step for...