Publication | Open Access
Calculations for millions of atoms with density functional theory: linear scaling shows its potential
144
Citations
48
References
2010
Year
EngineeringAdvanced ComputingConquest LinearComputer ArchitectureLinear ScalingComputational ChemistryChemistrySupercomputer ArchitectureElectronic StructureHigh-performance ArchitectureUltracold AtomParallel ComputingMassively-parallel ComputingPhysicsComputer EngineeringAtomic PhysicsComputer ScienceDft CalculationsQuantum ChemistryQuantum SolidAb-initio MethodComputational ScienceNatural SciencesApplied PhysicsMany-core ArchitectureParallel ProgrammingMany-body Problem
An overview of the CONQUEST linear scaling density functional theory (DFT) code is given, focusing particularly on the scaling behaviour on modern high-performance computing platforms. We demonstrate that essentially perfect linear scaling and weak parallel scaling (with fixed number of atoms per processor core) can be achieved, and that DFT calculations on millions of atoms are now possible.
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