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Comparison of Quantum Simulators for Variational Quantum Search: A Benchmark Study

Quantum Physics 2023-09-13 v1 Quantum Algebra

Abstract

Simulating quantum circuits using classical computers can accelerate the development and validation of quantum algorithms. Our newly developed algorithm, variational quantum search (VQS), has shown an exponential advantage over Grover's algorithm in the range from 5 to 26 qubits, in terms of circuit depth, for searching unstructured databases. We need to further validate the VQS for more than 26 qubits. Numerous simulators have been developed. However, it is not clear which simulator is most suitable for executing VQS with many qubits. To solve this issue, we implement a typical quantum circuit used in VQS on eight mainstream simulators. Results show that the time and memory required by most simulators increase exponentially with the number of qubits and that Pennylane with GPU and Qulacs are the most suitable simulators for executing VQS efficiently. Our results aid researchers in selecting suitable quantum simulators without the need for exhaustive implementation, and we have made our codes available for community contributions.

Keywords

Cite

@article{arxiv.2309.05924,
  title  = {Comparison of Quantum Simulators for Variational Quantum Search: A Benchmark Study},
  author = {Mohammadreza Soltaninia and Junpeng Zhan},
  journal= {arXiv preprint arXiv:2309.05924},
  year   = {2023}
}

Comments

Accepted by 27th Annual IEEE High Performance Extreme Computing Conference (HPEC) 2023

R2 v1 2026-06-28T12:18:47.636Z