Add to ORKGVariational quantum algorithms (VQAs) are expected to become a practical application of near-term noisy quantum computers. Although the effect of the noise crucially determines whether a VQA works or not, the heuristic nature of VQAs makes it difficult to establish analytic theories. Analytic estimations of the impact of the noise are urgent for searching for quantum advantages, as numerical simulations of noisy quantum computers on classical computers are heavy and quite limited to small scale problems. In this paper, we establish analytic estimations of the error in the cost function of VQAs due to the noise. The estimations are applicable to any typical VQAs under the Gaussian noise, which is equivalent to a class of stochastic noise mod...
Variational quantum algorithms (VQAs) are promising methods to demonstrate quantum advantage on near...
With an ever-expanding ecosystem of noisy and intermediate-scale quantum devices, exploring their po...
This paper aims to give an overview of the current state of fault-tolerant quantum comput-ing, by su...
We simulate the effects of different types of noise in state preparation circuits of variational qua...
Variational quantum algorithms have been one of the most intensively studied applications for near-t...
Variational Quantum Algorithms (VQAs) may be a path to quantum advantage on Noisy Intermediate-Scale...
The impressive progress in quantum hardware of the last years has raised the interest of the quantum...
Variational hybrid quantum-classical algorithms (VHQCAs) are near-term algorithms that leverage clas...
Quantum algorithms for quantum dynamics simulations are traditionally based on implementing a Trotte...
Applications such as simulating complicated quantum systems or solving large-scale linear algebra pr...
Given their potential to demonstrate near-term quantum advantage, variational quantum algorithms (VQ...
30 pages, 1 figureThe impressive progress in quantum hardware of the last years has raised the inter...
The inherent noise and complexity of quantum communication networks leads to challenges in designing...
A universal, scalable quantum computer will require the use of quantum error correction in order to ...
In this work, we first analyse a theoretical technique based on entropic inequalities, which in prin...
Variational quantum algorithms (VQAs) are promising methods to demonstrate quantum advantage on near...
With an ever-expanding ecosystem of noisy and intermediate-scale quantum devices, exploring their po...
This paper aims to give an overview of the current state of fault-tolerant quantum comput-ing, by su...
We simulate the effects of different types of noise in state preparation circuits of variational qua...
Variational quantum algorithms have been one of the most intensively studied applications for near-t...
Variational Quantum Algorithms (VQAs) may be a path to quantum advantage on Noisy Intermediate-Scale...
The impressive progress in quantum hardware of the last years has raised the interest of the quantum...
Variational hybrid quantum-classical algorithms (VHQCAs) are near-term algorithms that leverage clas...
Quantum algorithms for quantum dynamics simulations are traditionally based on implementing a Trotte...
Applications such as simulating complicated quantum systems or solving large-scale linear algebra pr...
Given their potential to demonstrate near-term quantum advantage, variational quantum algorithms (VQ...
30 pages, 1 figureThe impressive progress in quantum hardware of the last years has raised the inter...
The inherent noise and complexity of quantum communication networks leads to challenges in designing...
A universal, scalable quantum computer will require the use of quantum error correction in order to ...
In this work, we first analyse a theoretical technique based on entropic inequalities, which in prin...
Variational quantum algorithms (VQAs) are promising methods to demonstrate quantum advantage on near...
With an ever-expanding ecosystem of noisy and intermediate-scale quantum devices, exploring their po...
This paper aims to give an overview of the current state of fault-tolerant quantum comput-ing, by su...