Litcius/Paper detail

Entanglement-variational hardware-efficient ansatz for eigensolvers

Xin Wang, Bo Qi, Yabo Wang, Daoyi Dong

2024Physical Review Applied12 citationsDOI

Abstract

Variational quantum eigensolvers (VQEs) are one of the most important and effective applications of quantum computing, especially in the current noisy intermediate-scale quantum (NISQ) era. There are two main approaches for VQEs: problem-agnostic and problem-specific. For problem-agnostic methods, they often suffer from trainability issues. For problem-specific methods, their performance usually relies upon the choice of initial reference states, which are often hard to determine. In this paper, we propose an entanglement-variational hardware-efficient ansatz (EHA), and numerically compare it with some widely used ansatzes by solving benchmark problems in quantum many-body systems and quantum chemistry. Our EHA is problem-agnostic and hardware-efficient, is especially suitable for NISQ devices, and has potential for wide applications. Our EHA can achieve a higher level of accuracy in finding ground states and their energies in most cases, even compared with problem-specific methods. The performance of the EHA is robust to the choice of initial states and to parameter initialization, and it has the ability to quickly adjust the entanglement to the required amount, which is also the fundamental reason for its superiority.

Topics & Concepts

AnsatzQuantum entanglementComputer sciencePhysicsQuantum mechanicsQuantumQuantum Computing Algorithms and ArchitectureComputability, Logic, AI AlgorithmsQuantum many-body systems
Entanglement-variational hardware-efficient ansatz for eigensolvers | Litcius