6533b7d2fe1ef96bd125ebce
RESEARCH PRODUCT
Visualization in the integrated SimPhoNy multiscale simulation framework
Nathan FranklinGuillermo Román-pérezJari HyväluomaG.a. GarcíaAdham HashibonKit ChoiKeijo MattilaKeijo MattilaY. MakushokMehdi SadeghiJoan AdlerJesus LamaDidrik PinteIoannis TziakosSampo KuljuV. MakushokAmihai Silvermansubject
ta113Workstation010308 nuclear & particles physicsComputer scienceGeneral Physics and AstronomyElectronic charge density01 natural scienceselectronic charge densityComputational scienceVisualizationComplement (complexity)law.inventionatomisticHardware and Architecturelaw0103 physical sciencesCover (algebra)010306 general physicsvisualizationfluiddescription
Abstract We describe three distinct approaches to visualization for multiscale materials modelling research. These have been developed with the framework of the SimPhoNy FP7 EU-project, and complement each other in their requirements and possibilities. All have been integrated via wrappers to one or more of the simulation approaches within the SimPhoNy project. In this manuscript we describe and contrast their features. Together they cover visualization needs from electronic to macroscopic scales and are suited to simulations made on personal computers, workstations or advanced High Performance parallel computers. Examples as well as recommendations for future calculations are presented.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-10-01 | Computer Physics Communications |