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TenCirChem: An Efficient Quantum Computational Chemistry Package for the NISQ Era

Weitang Li, Jonathan Allcock, Lixue Cheng, Shi‐Xin Zhang, Shi‐Xin Zhang, Yuqin Chen, Jonathan P. Mailoa, Zhigang Shuai, Shengyu Zhang, Shengyu Zhang

2023Journal of Chemical Theory and Computation19 citationsDOI

Abstract

TenCirChem is an open-source Python library for simulating variational quantum algorithms for quantum computational chemistry. TenCirChem shows high-performance in the simulation of unitary coupled-cluster circuits, using compact representations of quantum states and excitation operators. Additionally, TenCirChem supports noisy circuit simulation and provides algorithms for variational quantum dynamics. TenCirChem ’s capabilities are demonstrated through various examples, such as the calculation of the potential energy curve of H 2 O with a 6-31G(d) basis set using a 34-qubit quantum circuit, the examination of the impact of quantum gate errors on the variational energy of the H 2 molecule, and the exploration of the Marcus inverted region for charge transfer rate based on variational quantum dynamics. Furthermore, TenCirChem is capable of running real quantum hardware experiments, making it a versatile tool for both simulation and experimentation in the field of quantum computational chemistry.

Topics & Concepts

Quantum computerQuantum simulatorCoupled clusterComputer scienceQubitQuantumComputational sciencePython (programming language)Quantum chemistryQuantum circuitQuantum algorithmQuantum dynamicsAlgorithmStatistical physicsQuantum networkQuantum mechanicsPhysicsMoleculeOperating systemSupramolecular chemistryQuantum Computing Algorithms and ArchitectureQuantum and electron transport phenomenaMachine Learning in Materials Science
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