# Accession Number:

## ADA209682

# Title:

## Application of Cholesky-Like Matrix Decomposition Methods to the Evaluation of Atomic Orbital Integrals and Integral Derivatives

# Descriptive Note:

## Technical rept. no. 1, Jan-Jun 1989,

# Corporate Author:

## UTAH UNIV SALT LAKE CITY DEPT OF CHEMISTRY

# Personal Author(s):

# Report Date:

## 1989-06-28

# Pagination or Media Count:

## 32.0

# Abstract:

When viewed as a square two-indexed matrix, the array of atomic orbital based, two-electron integrals ijkl is a positive semidefinite array. Beebe and Linderberg showed, in 1977, that actual or near linear dependencies often exist within the types of atomic orbital basis sets employed in conventional quantum chemical calculations. In fact, large i.e., higher quality bases were shown to be substantially more redundant than smaller or more spatially separated bases. In situations where these exists significant basis near redundancy, the rank r of the ijkl V sub I, J matrix of integrals will be significantly smaller than the matrix dimension M.

# Descriptors:

# Subject Categories:

- Physical Chemistry
- Numerical Mathematics