Add to ORKGQuantum error correction is capable of digitizing quantum noise and increasing the robustness of qubits. Typically, error correction is designed with the target of eliminating all errors - making an error so unlikely it can be assumed that none occur. In this work, we use statistical quantum fault injection on the quantum phase estimation algorithm to test the sensitivity to quantum noise events. Our work suggests that quantum programs can tolerate non-trivial errors and still produce usable output. We show that it may be possible to reduce error correction overhead by relaxing tolerable error rate requirements. In addition, we propose using variable strength (distance) error correction, where overhead can be reduced by only protecting more...
Quantum computers have the potential to solve several interesting problems in polynomial time for w...
Quantum computing is a fascinating research area which promises a revolution in computing performanc...
Quantum computers need to be able to control highly entangled quantum states in the presence of envi...
A major hurdle in building a quantum computer is overcoming noise, since quantum superpositions are ...
41 pages, 3 figuresQuantum error mitigation has been proposed as a means to combat unavoidable error...
A major hurdle in building a quantum computer is overcoming noise, since quantum superpositions are ...
41 pages, 3 figuresQuantum error mitigation has been proposed as a means to combat unavoidable error...
Quantum computing - the processing of information according to the fundamental laws of physics - off...
We show how procedures which can correct phase and amplitude errors are in themselves sufficient to ...
We show how procedures which can correct phase and amplitude errors are in themselves sufficient to ...
Errors are likely to be a serious problem for quantum computers, both because they are built of sma...
The main ideas of quantum error correction are introduced. These are encoding, extraction of syndrom...
We show how procedures which can correct phase and amplitude errors can be directly applied to corre...
Quantum computing is a fascinating research area which promises a revolution in computing performanc...
We show how procedures which can correct phase and amplitude errors can be directly applied to corre...
Quantum computers have the potential to solve several interesting problems in polynomial time for w...
Quantum computing is a fascinating research area which promises a revolution in computing performanc...
Quantum computers need to be able to control highly entangled quantum states in the presence of envi...
A major hurdle in building a quantum computer is overcoming noise, since quantum superpositions are ...
41 pages, 3 figuresQuantum error mitigation has been proposed as a means to combat unavoidable error...
A major hurdle in building a quantum computer is overcoming noise, since quantum superpositions are ...
41 pages, 3 figuresQuantum error mitigation has been proposed as a means to combat unavoidable error...
Quantum computing - the processing of information according to the fundamental laws of physics - off...
We show how procedures which can correct phase and amplitude errors are in themselves sufficient to ...
We show how procedures which can correct phase and amplitude errors are in themselves sufficient to ...
Errors are likely to be a serious problem for quantum computers, both because they are built of sma...
The main ideas of quantum error correction are introduced. These are encoding, extraction of syndrom...
We show how procedures which can correct phase and amplitude errors can be directly applied to corre...
Quantum computing is a fascinating research area which promises a revolution in computing performanc...
We show how procedures which can correct phase and amplitude errors can be directly applied to corre...
Quantum computers have the potential to solve several interesting problems in polynomial time for w...
Quantum computing is a fascinating research area which promises a revolution in computing performanc...
Quantum computers need to be able to control highly entangled quantum states in the presence of envi...