Subspace variational quantum simulator on superconducting qubit system

Heya Kentaro; Nakanishi M Ken; Kosuke Mitarai; Zhiguang Yan; Zuo Kun; Suzuki Yasunari; Sugiyama Takanori; Tamate Shuhei; Yutaka Tabuchi; Keisuke Fujii; Yasunobu Nakamura

Subspace variational quantum simulator on superconducting qubit system

ORAL

Abstract

Quantum simulation is one of the key applications of quantum computing, which accelerates research and development in the fields such as chemistry and material science. The recent development of noisy intermediate-scale quantum (NISQ) devices urges the exploration of applications without the necessity of quantum error correction. Here, we propose an efficient method to simulate quantum dynamics driven by a static Hamiltonian on NISQ devices, named subspace variational quantum simulator (SVQS). SVQS employs the subspace-search variational eigensolver (SSVQE) to find a low-lying subspace and extends it to simulate dynamics within the subspace with lower overhead compared to the existing schemes. We successfully simulate the time evolution of a quantum state in a hydrogen molecule with the subspace process fidelity from 0.90 to 0.99 using superconducting qubits.

March 15, 2022, 6:48 PM – March 15, 2022, 7:00 PM

Publication: https://arxiv.org/abs/1904.08566

Presenters

Heya Kentaro

RCAST, The University of Tokyo

Authors

Heya Kentaro

RCAST, The University of Tokyo
Nakanishi M Ken

iπ, The University of Tokyo
Kosuke Mitarai

QIQB, Osaka University, QIQB, Osaka University; Osaka University; JST PRESTO
Zhiguang Yan

RIKEN Center for Quantum Computing
Zuo Kun

RIKEN Center for Quantum Computing
Suzuki Yasunari

NTT Corporation, CD Lab, NTT Corporation
Sugiyama Takanori

RCAST, The University of Tokyo
Tamate Shuhei

RIKEN Center for Quantum Computing
Yutaka Tabuchi

RIKEN Center for Quantum Computing
Keisuke Fujii

QIQB, Osaka University, QIQB, Osaka University; Osaka University; RIKEN Center for Quantum Computing
Yasunobu Nakamura

RIKEN Center for Quantum Computing, RIKEN Center for Quantum Computing; Research Center for Advanced Science and Technology (RCAST), The University of Tokyo, Univ of Tokyo, RCAST, The University of Tokyo; RIKEN Center for Quantum Computing