Editing Randomised Benchmarking
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==Functionality Description== | ==Functionality Description== | ||
Randomized benchmarking refers to a collection of methods that aim to reliably estimating the magnitude of an average error of a quantum gate set in a robust fashion against state preparation and measurement error. It achieves this goal by applying sequences of feasible quantum gates of varying length, so that small errors are amplified | Randomized benchmarking refers to a collection of methods that aim to reliably estimating the magnitude of an average error of a quantum gate set in a robust fashion against state preparation and measurement error. One key [[figure of merit]] here is average gate fidelity. It achieves this goal by applying sequences of feasible quantum gates of varying length, so that small errors are amplified leading to reliable estimation. | ||
==Protocols== | ==Protocols== | ||
* [[ | * [[Standard Randomised Benchmarking]] | ||
* [[Interleaved Randomised Benchmarking]] | * [[Interleaved Randomised Benchmarking]] | ||
* [[Purity Benchmarking]] | * [[Purity Benchmarking]] | ||
==Properties== | ==Properties== | ||
* The figure of | * The noise model is assumed to be IID. | ||
* This method is insensitive to the SPAM errors | |||
* The figure of merit is average error rate, average fidelity of a noise quantum circuit. | |||
* This method is a certification technique which has lower sample and resource complexity than [[Tomography]] | |||
==Related Papers== | ==Related Papers== |