In this contribution, we present the implementation of a second-order complete active space-self-consistent field (CASSCF) algorithm in conjunction with the Cholesky decomposition of the two-electron repulsion integrals. The algorithm, called norm-extended optimization, guarantees convergence of the optimization, but it involves the full Hessian and is therefore computationally expensive. Coupling the second-order procedure with the Cholesky decomposition leads to a significant reduction in the computational cost, reduced memory requirements, and an improved parallel performance. As a result, CASSCF calculations of larger molecular systems become possible as a routine task. The performance of the new implementation is illustrated by means o...
In this work, we present a one-step second-order converger for state-specific (SS) and state-average...
In order to improve the performance of the current parallelized direct multi-configuration self-cons...
A new improved implementation of the second-order multiconfiguration self-consistent field optimizat...
In this contribution, we present the implementation of a second-order complete active space-self-con...
CASSCF calculations are often performed in order to get a qualitatively correct description of multi...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
A2. Electronic Structure Methods and Their Applications: no. A2-16 (invited)CASSCF (Complete Active ...
A large-scale implementation of the complete active space self-consistent field (CASSCF) method is p...
We present the implementation of a quadratically convergent self-consistent field (QCSCF) algorithm ...
Complete active space self-consistent field (CASSCF) methods are enormously important in quantum che...
We present a new second order complete active space self-consistent field implementation to converge...
An algorithm that accelerates the convergence of the iterative optimization of the complete active s...
In this work, we present a one-step second-order converger for state-specific (SS) and state-average...
The complete active space self-consistent field (CASSCF) method is the principal approach employed f...
In this work, we present a one-step second-order converger for state-specific (SS) and state-average...
In order to improve the performance of the current parallelized direct multi-configuration self-cons...
A new improved implementation of the second-order multiconfiguration self-consistent field optimizat...
In this contribution, we present the implementation of a second-order complete active space-self-con...
CASSCF calculations are often performed in order to get a qualitatively correct description of multi...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
A2. Electronic Structure Methods and Their Applications: no. A2-16 (invited)CASSCF (Complete Active ...
A large-scale implementation of the complete active space self-consistent field (CASSCF) method is p...
We present the implementation of a quadratically convergent self-consistent field (QCSCF) algorithm ...
Complete active space self-consistent field (CASSCF) methods are enormously important in quantum che...
We present a new second order complete active space self-consistent field implementation to converge...
An algorithm that accelerates the convergence of the iterative optimization of the complete active s...
In this work, we present a one-step second-order converger for state-specific (SS) and state-average...
The complete active space self-consistent field (CASSCF) method is the principal approach employed f...
In this work, we present a one-step second-order converger for state-specific (SS) and state-average...
In order to improve the performance of the current parallelized direct multi-configuration self-cons...
A new improved implementation of the second-order multiconfiguration self-consistent field optimizat...