A comparison of linear scaling replacements for diagonalization in electronic structure calculations

Daniels, Andrew D.

January 2001

Even when using parametrized semiempirical methods, quantum chemical calculations on molecules containing more than a few hundred atoms become prohibitively expensive due to O (N3) time and memory costs where N is the number of atoms. I implemented methods to allow the CPU time cost of semiempirical methods to scale linearly with system size enabling semiempirical calculations on large biological systems such as proteins and nucleic acids. The cost of forming the initial guess density matrix was reduced by replacing the O (N3) diagonalization of the Huckel Hamiltonian with an approach which uses localized molecular orbitals based on the Lewis dot structure to build the density matrix. The Fock matrix build was reduced from O (N2) to linear scaling in CPU time using atom-atom distance cutoffs. The diagonalization step was replaced by several linear scaling methods described in the literature: conjugate gradient density matrix search (CGDMS), purification of the density matrix (PDM), pseudodiagonalization (PD), and the Chebyshev expansion method (CEM). While in my semiempirical implementation all of these methods demonstrated linear scaling, CGDMS, PDM and PD required about the same amount of CPU time for calculations on water clusters and polyglycine chains but CEM was found to be about three times as expensive as the other methods. However, CGDMS stands out among the other methods by having the added property of enhancing self-consistent field (SCF) convergence in cases where diagonalization has convergence difficulties. Finally, to demonstrate the effectiveness of the linear scaling semiempirical method on a realistic system we performed the first-ever semiempirical geometry optimization using PM3 implemented with CGDMS on a 1226 atom kringle 1 of plasminogen.

Chemistry, Physical

THE ANODIC OXIDATION OF SULFIDE ON GOLD AND PLATINUM ELECTRODES

HUANG, LI-MEI

January 1986

No description available.

Chemistry

Physical

Ultraviolet photoelectron spectroscopy of clusters with a magnetic time of flight photoelectron spectrometer

Craycraft, Mary Jo

January 1988

The nature of metal and semi-conductor bonding has been investigated via UV photoelectron spectroscopy of cluster anions. Electrons from negative cluster ions of the desired mass are photodetached and then collected with the aid of judiciously arranged magnetic fields. Pulsed operation allows the use of time of flight techniques on both the parent ions and the photoelectrons. Photodetaching with UV grants access to the details of valence electronic structure. Our experiments show marked variations in electronic structure as a function of cluster size and composition. Cu cluster UPS show an even-odd alternation in electron affinities, predicted by cluster shell models. The UPS of sixty atom C Clusters corroborates the proposed soccerball structure for some C$\sb{60}$. Semi-conductor cluster UPS indicate shell closings for certain cluster sizes.

Chemistry, Physical

Photodynamics of iodobenzene in the B continuum studied by resonance Raman spectroscopy

Chang, Bor-Yu

January 1994

A new technique for obtaining continuously scanned Raman excitation profiles (REP's) is described. The technique relies on simultaneous stepping of the laser wavelength (excitation frequency), the angle of a frequency-doubling crystal and spectrometer grating angle under control of a single computer. The method is applied to the REP's of four vibrational bands of iodobenzene ($\rm 265 cm\sp{-1}, 530 cm\sp{-1}, 1065 cm\sp{-1}$ and 1575 cm$\sp{-1}$) excited in the B-continuum (216-233 nm). The results are interpreted in terms of a dynamical model of the ground and excited $\rm\tilde{B}\ \sp{1}A\sb1$ electronic states.

Chemistry, Physical

A MONTE CARLO PROCEDURE FOR STATISTICAL MECHANICAL CALCULATIONS IN A RESTRICTED GRAND CANONICAL ENSEMBLE OF LATTICE SYSTEMS

CHESNUT, DWAYNE ALLEN

January 1963

No description available.

Chemistry

Physical

THE LOW TEMPERATURE SPECIFIC HEAT OF FINELY DIVIDED SODIUM-CHLORIDE

BARKMAN, JAMES HUMPHREY, JR.

January 1964

No description available.

Chemistry

Physical

THE ENTROPY AND RELATED THERMODYNAMIC PROPERTIES OF N-VALERIC ACID AND CARBON SUBOXIDE AND THE DETERMINATION OF THE LOWEST BENDING FREQUENCY OF CARBON SUBOXIDE

MCDOUGALL, LEE ALLEN

January 1964

No description available.

Chemistry

Physical

THE CRYSTAL STRUCTURES OF PYRIDINIUM DICYANOMETHYLIDE AND POTASSIUM PARA-NITROPHENYL DICYANOMETHIDE

BUGG, CHARLES EDWARD

January 1965

No description available.

Chemistry

Physical

THE MICROWAVE SPECTRUM OF NITROGEN DIOXIDE

HODGESON, JIMMIE ALTON

January 1965

No description available.

Chemistry

Physical

I. A LOW TEMPERATURE CALORIMETER AND II. THE SPECIFIC HEAT OF DIETHYLENEDIAMINE COPPER(II)-DICHLORIDE

ANDERSON, RICHARD LOUIS

January 1966

No description available.

Chemistry

Physical