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Q-Chem Program

Q-Chem, the Program


Q-Chem incorporates the features highlighted here, among others:
Properties Analysis
Automated Geometry and Transition Structure Optimization
  • Optimizes in Cartesian, Z-Matrix or delocalized internal coordinates
  • Eigenvector Following (EF) algorithm for minima and transition states
  • GDIIS algorithm for minima
  • Can impose bond angle, dihedral angle (torsion) or out-of-plane bend constraints
  • Freezes atoms in Cartesian coordinates
  • Desired constraints need not be satisfied in the starting structure
  • Geometry optimization in the presence of fixed point charges
  • Vibrational Spectra
    Electronic Excitation Spectra
  • Excitation energies may be calculated at the CIS, XCIS and CIS(D) levels
  • Visualization via attachment-detachment analysis at the CIS level of theory
  • Electrostatic Potentials
    Molecular Orbital and Density Plotting
  • Seamless integration with HyperChem and UniChem plotting features
  • Natural Bond Orbital Analysis
    Attachment-Detachment Analysis for Excited States
  • A unique new tool for visualizing electronic transitions
  • Automated visualization available within HyperChem and UniChem interfaces
  • Theoretical Methods
    Hartree-Fock Theory
  • Automated optimal blend of in-core and direct SCF methods
  • Linear-cost exchange algorithms for large molecules (QCTC, ONX)
  • Local and Gradient-Corrected Density Functional Theory
  • Slater, Becke and GGA91 exchange functionals
  • VWN, PZ81, Wigner, Perdew '86, LYP and GGA91 correlation functionals
  • Linear-cost XC algorithm for large molecules
  • Hybrid HF-DFT Methods
  • B3LYP
  • B3P
  • User-definable hybrids
  • Continuous Fast Multipole Method (CFMM)
  • Linear-cost calculation of Coulomb interactions
  • Finds exact Coulomb energy; no approximations are made
  • MP2 Perturbation Theory
  • Energy via direct and semidirect methods
  • Analytical gradient via efficient semidirect methods
  • Proper treatment of frozen orbitals in analytical gradient
  • Excited states treated via the corresponding CIS(D) method
  • CIS, XCIS and CIS(D) Methods for Excited States
  • Restricted, unrestricted and restricted open shell CIS supported
  • Energies and gradients available for restricted and unrestricted CIS with energies
    available for all other methods
  • CIS implementations are direct methods designed for large molecules
  • CIS(D) treats electron correlation effects on electronic transitions
  • Efficient direct and semidirect implementation of CIS(D) makes the cost of this
    method per state similar to MP2
  • COLD PRISM for Two-Electron Integrals
  • Incorporates the latest advances in integrals methodology
  • Q-Chem runs on the following computer platforms:
    Hardware
    Cray vector supercomputers and mini-supercomputers
  • J90, C90 and T90
  • SGI workstations and mini-supercomputers
  • Indy, O2, Indigo2, Onyx and Challenge series
  • IBM workstations
  • RS/6000 series
  • DEC workstations
  • Alpha series
  • UNIX workstations
  • Portable to additional platforms as needed
  • Q-Chem 1.0 Press Release

    Q-Chem is a trademark of Q-Chem, Inc. All rights reserved.

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    Modified: Sun Apr 6 16:00:00 1997 GMT
    Page accessed 2039 times since Sat Apr 17 22:33:35 1999 GMT