In this report, three versions of SCF/KS-DFT orbital optimization are described and benchmarked. The methods are a modified version of the gradient type of the direct inversion in the iterative subspace approach (r-GDIIS), the modified restricted step rational function optimization method (RS-RFO), and the novel subspace gradient enhanced Kriging method, combined with restricted variance optimization (S-GEK/RVO). The modifications introduced are aimed to improve the robustness and computational scaling of the procedures. In particular, the subspace approach in S-GEK/RVO allows the application to SCF/KS-DFT optimization of a machine technique that has proved successful in geometry optimizations. The performance of the three methods is benchm...
Automatic techniques for geometry optimization are applied in conjunction with configuration interac...
International audienceMachine learning techniques, specifically gradient-enhanced Kriging (GEK), hav...
Orbital optimization procedure is widely called in electronic structure simulation. To efficiently f...
A recently proposed orthonormality constrained orbital optimization technique is operationally modif...
We present a general approach to converge excited state solutions to any quantum chemistry orbital o...
A new orbital optimization for the multiconfiguration self-consistent field method is presented. Thi...
We introduce numerical optimization of multi-site support functions in the linear-scaling DFT code C...
The ability to perform geometry optimizations on large molecular systems is desirable for both close...
A new improved implementation of the second-order multiconfiguration self-consistent field optimizat...
We present the use of the recently developed square gradient minimization (SGM) algorithm for excite...
A2. Electronic Structure Methods and Their Applications: no. A2-16 (invited)CASSCF (Complete Active ...
The convergence of the Self Consistent Field (SCF) iteration process is one of the most commonly enc...
We present a benchmark study on equilibrium structures optimized with subsystem density functional t...
Machine learning techniques, specifically gradient-enhanced Kriging (GEK), have been implemented for...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
Automatic techniques for geometry optimization are applied in conjunction with configuration interac...
International audienceMachine learning techniques, specifically gradient-enhanced Kriging (GEK), hav...
Orbital optimization procedure is widely called in electronic structure simulation. To efficiently f...
A recently proposed orthonormality constrained orbital optimization technique is operationally modif...
We present a general approach to converge excited state solutions to any quantum chemistry orbital o...
A new orbital optimization for the multiconfiguration self-consistent field method is presented. Thi...
We introduce numerical optimization of multi-site support functions in the linear-scaling DFT code C...
The ability to perform geometry optimizations on large molecular systems is desirable for both close...
A new improved implementation of the second-order multiconfiguration self-consistent field optimizat...
We present the use of the recently developed square gradient minimization (SGM) algorithm for excite...
A2. Electronic Structure Methods and Their Applications: no. A2-16 (invited)CASSCF (Complete Active ...
The convergence of the Self Consistent Field (SCF) iteration process is one of the most commonly enc...
We present a benchmark study on equilibrium structures optimized with subsystem density functional t...
Machine learning techniques, specifically gradient-enhanced Kriging (GEK), have been implemented for...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
Automatic techniques for geometry optimization are applied in conjunction with configuration interac...
International audienceMachine learning techniques, specifically gradient-enhanced Kriging (GEK), hav...
Orbital optimization procedure is widely called in electronic structure simulation. To efficiently f...