We study the approximate state preparation problem on noisy intermediate-scale quantum (NISQ) computers by applying a genetic algorithm to generate quantum circuits for state preparation. The algorithm can account for the specific characteristics of the physical machine in the evaluation of circuits, such as the native gate set and qubit connectivity. We use our genetic algorithm to optimize the circuits provided by the low-rank state preparation algorithm introduced by Araujo et al., and find substantial improvements to the fidelity in preparing Haar random states with a limited number of CNOT gates. Moreover, we observe that already for a 5-qubit quantum processor with limited qubit connectivity and significant noise levels (IBM Falcon 5T...
Recent development in quantum technology have shown that quan-tum computer can provide a dramatic ad...
It has been experimentally proven that realizing universal quantum gates using higher-radices logic ...
While advances in quantum hardware occur in modest steps, simulators running on classical computers ...
We study the approximate state preparation problem on noisy intermediate-scale quantum (NISQ) comput...
Abstract The efficient preparation of quantum states is an important step in the execution of many q...
Quantum computing is an emerging technology that combines the principles of both computer science an...
Quantum Computing represents the next big step towards speed boost in computation, which promises ma...
Computationally expensive applications, including machine learning, chemical simulations, and financ...
Optimization is one of the research areas where quantum computing could bring significant benefits. ...
We employ a machine learning-enabled approach to quantum state engineering based on evolutionary alg...
Abstract: In this paper we focus on a general approach of using genetic algorithm (GA) to evolve Qua...
A key open question in quantum computing is whether quantum algorithms can potentially offer a signi...
As noisy intermediate-scale quantum (NISQ) devices grow in number of qubits, determining good or eve...
Large faulttolerant universal gate quantum computers will provide a major speedup to a variety of ...
There is no unique way to encode a quantum algorithm into a quantum circuit. With limited qubit coun...
Recent development in quantum technology have shown that quan-tum computer can provide a dramatic ad...
It has been experimentally proven that realizing universal quantum gates using higher-radices logic ...
While advances in quantum hardware occur in modest steps, simulators running on classical computers ...
We study the approximate state preparation problem on noisy intermediate-scale quantum (NISQ) comput...
Abstract The efficient preparation of quantum states is an important step in the execution of many q...
Quantum computing is an emerging technology that combines the principles of both computer science an...
Quantum Computing represents the next big step towards speed boost in computation, which promises ma...
Computationally expensive applications, including machine learning, chemical simulations, and financ...
Optimization is one of the research areas where quantum computing could bring significant benefits. ...
We employ a machine learning-enabled approach to quantum state engineering based on evolutionary alg...
Abstract: In this paper we focus on a general approach of using genetic algorithm (GA) to evolve Qua...
A key open question in quantum computing is whether quantum algorithms can potentially offer a signi...
As noisy intermediate-scale quantum (NISQ) devices grow in number of qubits, determining good or eve...
Large faulttolerant universal gate quantum computers will provide a major speedup to a variety of ...
There is no unique way to encode a quantum algorithm into a quantum circuit. With limited qubit coun...
Recent development in quantum technology have shown that quan-tum computer can provide a dramatic ad...
It has been experimentally proven that realizing universal quantum gates using higher-radices logic ...
While advances in quantum hardware occur in modest steps, simulators running on classical computers ...