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* '''Figure of merit''': Quantum Volume | * '''Figure of merit''': Quantum Volume | ||
* Quantum computing systems with high-fidelity operations, high connectivity, large calibrated gate sets, and circuit rewriting tool chains are expected to have higher quantum volumes | * Quantum computing systems with high-fidelity operations, high connectivity, large calibrated gate sets, and circuit rewriting tool chains are expected to have higher quantum volumes | ||
* The protocol can be implemented with any universal programmable quantum computing device | * The protocol can be implemented with any universal programmable quantum computing device. Quantum volume is | ||
architecture-independent, and can be applied to any system that is capable of running quantum circuits. | |||
* The method used to compute the heavy outputs from the ideal output distribution of the model circuit scales exponentially with the width <math>m</math>. | * The method used to compute the heavy outputs from the ideal output distribution of the model circuit scales exponentially with the width <math>m</math>. | ||
* Ideally, the probability of observing a heavy output would be estimated using all of the qubits of a large device, but NISQ devices have appreciable error rates, so we begin with small model circuits and progress to larger ones. | * Ideally, the probability of observing a heavy output would be estimated using all of the qubits of a large device, but NISQ devices have appreciable error rates, so we begin with small model circuits and progress to larger ones. |