We report on benchmark tests of computations of the total electronic density of states of a micro-crystallite of rutile TiO2 on MasPar MP-1 and MasPar MP-2 autonomous SIMD computers. The 3D spatial arrangement of atoms corresponds to the two dimensional computational grid of processing elements (PE) plus memory (2D + 1D) while the interactions between the constituent atoms correspond to the communication between the PEs. The largest sample we study consists of 491,520 atoms and its size is 41.5 × 41.5 × 1.5nm. Mathematically, the problem is equvalent to solving an n × n eigenvalue problem, where n ~ 2,500,000. The program is scalable in the number of atoms, so that the time required to run it is nearly independent of the size of the system ...
The Linearly Scaling three-dimensional fragment (LS3DF) method is an O(N) ab initio electronic struc...
The equation of motion method is very well suited for studying the electronic density of states of d...
Based on the molecular dynamics software package CovalentMD 2.0, the fastest molecular dynamics simu...
We report on benchmark tests of computations of the total electronic density of states of a micro-cr...
We report massively parallel computations of the electronic density of states of a non-periodic micr...
We report massively parallel computations of the electronic density of states of a non-periodic micr...
A program for electronic structure computations, which scales linearly (O(N)) with the nu...
Extremely fast parallel implementation of the equation-of-motion method for electronic structure com...
Recently microfacets on reconstructed TiO2 (100) 1 x 3 have been observed with atomic res olution ...
We present a new linear scaling ab initio total energy electronic structure calculation method based...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
We have developed a highly efficient and scalable electronic structure code for parallel computers ...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
During the last four years a number of relined ex perimental studies of the rutile Ti...
The Linearly Scaling three-dimensional fragment (LS3DF) method is an O(N) ab initio electronic struc...
The Linearly Scaling three-dimensional fragment (LS3DF) method is an O(N) ab initio electronic struc...
The equation of motion method is very well suited for studying the electronic density of states of d...
Based on the molecular dynamics software package CovalentMD 2.0, the fastest molecular dynamics simu...
We report on benchmark tests of computations of the total electronic density of states of a micro-cr...
We report massively parallel computations of the electronic density of states of a non-periodic micr...
We report massively parallel computations of the electronic density of states of a non-periodic micr...
A program for electronic structure computations, which scales linearly (O(N)) with the nu...
Extremely fast parallel implementation of the equation-of-motion method for electronic structure com...
Recently microfacets on reconstructed TiO2 (100) 1 x 3 have been observed with atomic res olution ...
We present a new linear scaling ab initio total energy electronic structure calculation method based...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
We have developed a highly efficient and scalable electronic structure code for parallel computers ...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
During the last four years a number of relined ex perimental studies of the rutile Ti...
The Linearly Scaling three-dimensional fragment (LS3DF) method is an O(N) ab initio electronic struc...
The Linearly Scaling three-dimensional fragment (LS3DF) method is an O(N) ab initio electronic struc...
The equation of motion method is very well suited for studying the electronic density of states of d...
Based on the molecular dynamics software package CovalentMD 2.0, the fastest molecular dynamics simu...