Generally Applicable Atomic-Charge Dependent London Dispersion Correction
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Updated
Sep 16, 2024 - Fortran
Generally Applicable Atomic-Charge Dependent London Dispersion Correction
reimplementation of the DFT-D3 program
Efficient parallel quantum chemistry DMRG in MPO formalism
Quantum computational chemistry based on TensorCircuit
Implementation of a machine learned density functional
GradDFT is a JAX-based library enabling the differentiable design and experimentation of exchange-correlation functionals using machine learning techniques.
A python wrapper for https://www.chemie.uni-bonn.de/pctc/mulliken-center/software/dft-d3/get-the-current-version-of-dft-d3
Demos for the 2022 Many Electron Collaboration Workshop on PySCF
State Interaction Spin-Orbit (SISO) Method for CASSCF and FCI
A trial to implement doubly-hybrid interface to PySCF
Automatic diagram and code generation of quantum chemistry coupled-cluster equations
Green's function methods using auxiliary space
Source code for Automatic Differentiation for the Direct Minimization Approach to the Hartree-Fock Method
Implementation of local algorithms within pyscf
A talk about PySCF and how it relates to the rest of the CCQ software ecosystem
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