libDMET (pyscf 2.1) with unitary CCSD solvers of quantum computing chemistry.
Installation
Please refer to libdmet_preview for the installation of libDMET.
Please refer to QCSOLVERS.md, for the configuration of quantum computing chemistry solvers.
Prerequisites
libdmet
pyscf 2.1 or higher
matplotlib 3.7.1 or higher
julia 0.5.7 or higher
numpy 1.21
openfermion 1.3.0
openfermionpyscf 0.5
fqe 0.2.0
projectq 0.7.3
Reference
The following papers should be cited in publications utilizing the libDMET program package:
Cui, Z.-H., Zhu, T., Chan, G. K.-L. Efficient Implementation of Ab Initio Quantum Embedding in Periodic Systems: Density Matrix Embedding Theory. J. Chem. Theory Comput. 16, 119–129 (2020).
Zhu, T., Cui, Z.-H., Chan, G. K.-L. Efficient Formulation of Ab Initio Quantum Embedding in Periodic Systems: Dynamical Mean-Field Theory. J. Chem. Theory Comput. 16, 141–153 (2020).
If you use QC solvers in your research, please cite this paper:
Changsu Cao, Jinzhao Sun, Xiao Yuan, Han-Shi Hu, Hung Q Pham, Dingshun Lv, Ab initio Quantum Simulation of Strongly Correlated Materials with Quantum Embedding. arXiv:2209.03202v2 (2023).
Specifically, if you use the quantum computing solver based on FQE (QCfqe), please also cite:
libDMET_with_QC
libDMET (pyscf 2.1) with unitary CCSD solvers of quantum computing chemistry.
Installation
Prerequisites
Reference
The following papers should be cited in publications utilizing the libDMET program package:
If you use QC solvers in your research, please cite this paper:
Specifically, if you use the quantum computing solver based on FQE (QCfqe), please also cite:
If you use the quantum computing solver based on Yao (QCyao), please also cite: