Badia, J.M.
Movilla, J.L.
Climente, J.I.
Castillo, M.
Marqués, M.
Mayo, R.
Quintana-Ortí, E.S.
Planelles, J.
Large-scale linear system solver using secondary storage: Self-energy in hybrid nanostructures
Abstract
We present a Fortran library which can be used to solve large-scale dense linear systems, A x = b . The library is based on the LU decomposition included in the parallel linear algebra library PLAPACK and on its out-of-core extension POOCLAPACK. The library is complemented with a code which calculates the self-polarization charges and self-energy potential of axially symmetric nanostructures, following an induced charge computation method. Illustrative calculations are provided for hybrid sem...
Title of program: HDSS - (Huge Dense System Solver)
Catalogue Id: AEHU_v1_0
Nature of problem
Huge scale dense systems of linear equations, Ax = B, beyond standard LAPACK capabilities. Application to calculations of self-energy potential in dielectrically mismatched semiconductor quantum dots.
Versions of this program held in the CPC repository in Mendeley Data
AEHU_v1_0; HDSS - (Huge Dense System Solver); 10.1016/j.cpc.2010.10.021
AEHU_v1_1; Huge Dense System Solver (HDSS); 10.1016/j.cpc.2011.06.010
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2018)
Surface Science;Condensed Matter Physics;Computational Physics
2019-12-06
https://mendeley.figshare.com/articles/dataset/Large-scale_linear_system_solver_using_secondary_storage_Self-energy_in_hybrid_nanostructures/11332991

10.17632/5vp62mzkpk.1