A thin wrapper library for Psi4 and RDKit
Project description
Psikit: a thin wrapper library for Psi4 and RDKit
Inspired from the entry:Calculate HOMO and LUMO with Psi4
Install RDKit and Psi4 from Conda
conda install -c psi4 psi4
conda install -c rdkit rdkit
conda install -c conda-forge debtcollector
Install resp from github repository (resp from conda doesn't work)
git clone https://github.com/cdsgroup/resp.git
cd resp
pip install .
Install Psikit
Psikit is under development but you can install the current version of Psikit from pypi or conda.
via conda
conda install -c iwatobipen psikit
via pip
pip install psikit
via pip from github
pip install git+https://github.com/Mishima-syk/psikit
Testing Psikit
pytest --disable-warnings -v
Usage
Single point calcuration
from psikit import Psikit
pk = Psikit()
pk.read_from_smiles("c1ccccc1")
print("SCF Energy: ", pk.energy())
print("HOMO: ", pk.HOMO)
print("LUMO: ", pk.LUMO)
x, y, z, total = pk.dipolemoment
print("SCF Total Dipole Moment: {}".format(total))
# SCF Energy: -230.712279648862
# HOMO: -0.32848562009092513
# LUMO: 0.1456515222506689
# SCF Total Dipole Moment: 3.292464934070545e-05
Structure optimization
pk = Psikit()
pk.read_from_smiles("c1ccccc1")
print("Optimized SCF Energy: ", pk.optimize())
# Optimizer: Optimization complete!
# Optimized SCF Energy: -230.71352354223438
Calculate RESP Charge
# REF http://ambermd.org/tutorials/advanced/tutorial1/files/resp_paper_jacs.pdf
pk = Psikit()
pk.read_from_smiles("CC(=O)O")
pk.optimize()
# Optimizer: Optimization complete!
# -227.82180859253418
pk.calc_resp_charges()
# array([-0.32506898, 0.83672649, -0.61924915, -0.66135715, 0.10450057,
# 0.10478188, 0.10780051, 0.45186584])
for atom in pk.mol.GetAtoms():
print(atom.GetSymbol(), "ESP:{}\tRESP:{}".format(atom.GetProp("EP"), atom.GetProp("RESP")))
# C ESP:-0.49662019588648315 RESP:-0.3250689814483399
# C ESP:0.91473263536048643 RESP:0.83672648554100837
# O ESP:-0.63823808477114718 RESP:-0.61924915363703359
# O ESP:-0.6763331997116846 RESP:-0.66135714989354499
# H ESP:0.14625849864628995 RESP:0.10450056830656008
# H ESP:0.14578513969681847 RESP:0.10478187811883517
# H ESP:0.1530843954112609 RESP:0.1078005104750676
# H ESP:0.45133081125445906 RESP:0.45186584253744722
### Compute Mulliken charges and Lowdin charges
pk = Psikit()
pk.read_from_smiles("CC(=O)O")
pk.optimize() # or pk.energy()
pk.calc_mulliken_charges()
# array([-0.42203029, 0.72794785, -0.55419051, -0.59333358, 0.16369722,
# 0.1636994 , 0.15462075, 0.35958916])
pk.calc_lowdin_charges()
#array([-0.30006577, 0.33900448, -0.35983788, -0.28463832, 0.12439944,
# 0.12810672, 0.11935266, 0.23367866])
Rendering Molecular Orbitals
from psikit import Psikit
pk = Psikit()
pk.read_from_smiles("c1ccccc1")
pk.optimize(basis_sets="scf/sto-3g")
pk.view_on_pymol() # launch pymol as a RPC server in advance, just type "pymol -R"
Adding RDKit mol object to Psikit object directly
from psikit import Psikit
pk = Psikit()
pk.mol = your_mol_object
Jupyter notebook
- RESP charge
- Torsion Scan
- Rendering Orbital with VMD
- Rendering Orbital in PyMol
- Charge Comparison
- SAPT
- FSAPT
License
Code released under the BSD license.
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