Benchmarking quantum computers
The rapid pace of development in quantum computing technology has sparked a
proliferation of benchmarks to assess the performance of quantum computing hardware and …
proliferation of benchmarks to assess the performance of quantum computing hardware and …
Provable bounds for noise-free expectation values computed from noisy samples
Quantum computing has emerged as a powerful computational paradigm capable of solving
problems beyond the reach of classical computers. However, today's quantum computers …
problems beyond the reach of classical computers. However, today's quantum computers …
Generalized Cycle Benchmarking Algorithm for Characterizing Midcircuit Measurements
Midcircuit measurements (MCMs) are crucial ingredients in the development of fault-tolerant
quantum computation. While there have been rapid experimental progresses in realizing …
quantum computation. While there have been rapid experimental progresses in realizing …
Efficient self-consistent learning of gate set Pauli noise
Understanding quantum noise is an essential step towards building practical quantum
information processing systems. Pauli noise is a useful model that has been widely applied …
information processing systems. Pauli noise is a useful model that has been widely applied …
Randomized benchmarking protocol for dynamic circuits
Dynamic circuit operations (measurements with feedforward) are important components for
future quantum computing efforts, but lag behind gates in the availability of characterization …
future quantum computing efforts, but lag behind gates in the availability of characterization …