A new method for the multipole evaluation of contracted Cartesian Gaussian-based electron repulsion integrals is described, and implemented in linear scaling methods for computation of the Hartree–Fock exchange matrix. The new method, which relies on a nonempirical multipole acceptability criterion [J. Chem. Phys. 109, 8764 (1998)], renders the work associated with integral evaluation independent of the basis set contraction length. Benchmark calculations on a series of three-dimensional water molecule clusters and graphitic sheets with highly contracted basis sets indicate that the new method is up to 4.6 times faster than a well optimized direct integral evaluation routine. For calculations involving lower levels of contraction a factor o...
The contents of this thesis are centered in the developement of new efficient algorithms for molecul...
In this paper, the tensor-structured numerical evaluation of the Coulomb and ex-change operators in ...
Density fitting approximations are applied to generate the Fock matrix in Hartree–Fock calculations....
The authors propose a new algorithm, "local K" (LK), for fast evaluation of the exchange Fock matrix...
Hierarchical cubature is a new method for achieving linear scaling computation of the exchange-corre...
. A direct comparison is made between two recently proposed methods for linear scaling computation o...
We introduce the novel numerical method for fast and accurate evaluation of the exchange part of the...
A number of computational techniques are described that reduce the effort related to the continuous ...
In this chapter a number of algorithms are described for the exact or approximate calculations of th...
Recently, early onset linear scaling computation of the exchange-correlation matrix has been achieve...
Kohn-Sham Density Functional Theory (DFT) provides a method for electronic structure calculations ap...
We extend our linear-scaling approach for the calculation of Hartree–Fock exchange energy using loca...
In a previous study we reported an efficient, accurate multiresolution solver for the Kohn-Sham self...
Even when using parametrized semiempirical methods, quantum chemical calculations on molecules conta...
We derive a new estimate for two-electron repulsion integrals (ERIs), when evaluated within a local ...
The contents of this thesis are centered in the developement of new efficient algorithms for molecul...
In this paper, the tensor-structured numerical evaluation of the Coulomb and ex-change operators in ...
Density fitting approximations are applied to generate the Fock matrix in Hartree–Fock calculations....
The authors propose a new algorithm, "local K" (LK), for fast evaluation of the exchange Fock matrix...
Hierarchical cubature is a new method for achieving linear scaling computation of the exchange-corre...
. A direct comparison is made between two recently proposed methods for linear scaling computation o...
We introduce the novel numerical method for fast and accurate evaluation of the exchange part of the...
A number of computational techniques are described that reduce the effort related to the continuous ...
In this chapter a number of algorithms are described for the exact or approximate calculations of th...
Recently, early onset linear scaling computation of the exchange-correlation matrix has been achieve...
Kohn-Sham Density Functional Theory (DFT) provides a method for electronic structure calculations ap...
We extend our linear-scaling approach for the calculation of Hartree–Fock exchange energy using loca...
In a previous study we reported an efficient, accurate multiresolution solver for the Kohn-Sham self...
Even when using parametrized semiempirical methods, quantum chemical calculations on molecules conta...
We derive a new estimate for two-electron repulsion integrals (ERIs), when evaluated within a local ...
The contents of this thesis are centered in the developement of new efficient algorithms for molecul...
In this paper, the tensor-structured numerical evaluation of the Coulomb and ex-change operators in ...
Density fitting approximations are applied to generate the Fock matrix in Hartree–Fock calculations....