Add to ORKGRealistic quantum gates operate at non-vanishing noise levels. Therefore, it is necessary to evaluate the performance of each device according to some experimentally observable criteria of device performance. In this presentation, the characteristic properties of quantum operations are discussed and efficient measurement strategies are proposed
Producing useful quantum information devices requires efficiently assessing control of quantum syste...
The area of property testing tries to design algorithms that can efficiently handle very large amou...
We consider the problem of characterizing the set of input-output correlations that can be generated...
It is shown that a quantum controlled-NOT gate simultaneously performs the logical functions of thre...
International audienceThe accurate implementation of quantum gates is essential for the realization ...
The purpose of this study is to investigate quantum systems noise in “IBMQ” architecture and create ...
Accurate characterization of two-qubit gates will be critical for any realization of quantum computa...
Quantum measurement is a fundamental cornerstone of experimental quantum computations. The main issu...
Abstract In this perspective we discuss verification of quantum devices in the context of specific ...
Efficient methods for characterizing the performance of quantum measurements are important in the ex...
The ability of a quantum computer to reproduce or replicate the results of a quantum circuit is a ke...
Randomized benchmarking is routinely used as an efficient method for characterizing the performance ...
Quantum computers are a promising technology expected to provide substantial speedups to important c...
Current processes validation methods rely on diverse input states and exponential applications of st...
Quantum networks provide numerous potential benefits over classical networks, such as enhanced secur...
Producing useful quantum information devices requires efficiently assessing control of quantum syste...
The area of property testing tries to design algorithms that can efficiently handle very large amou...
We consider the problem of characterizing the set of input-output correlations that can be generated...
It is shown that a quantum controlled-NOT gate simultaneously performs the logical functions of thre...
International audienceThe accurate implementation of quantum gates is essential for the realization ...
The purpose of this study is to investigate quantum systems noise in “IBMQ” architecture and create ...
Accurate characterization of two-qubit gates will be critical for any realization of quantum computa...
Quantum measurement is a fundamental cornerstone of experimental quantum computations. The main issu...
Abstract In this perspective we discuss verification of quantum devices in the context of specific ...
Efficient methods for characterizing the performance of quantum measurements are important in the ex...
The ability of a quantum computer to reproduce or replicate the results of a quantum circuit is a ke...
Randomized benchmarking is routinely used as an efficient method for characterizing the performance ...
Quantum computers are a promising technology expected to provide substantial speedups to important c...
Current processes validation methods rely on diverse input states and exponential applications of st...
Quantum networks provide numerous potential benefits over classical networks, such as enhanced secur...
Producing useful quantum information devices requires efficiently assessing control of quantum syste...
The area of property testing tries to design algorithms that can efficiently handle very large amou...
We consider the problem of characterizing the set of input-output correlations that can be generated...