https://snicdocs.nsc.liu.se/w/index.php?title=Comparative_study_of_major_ab_initio_software_for_materials_science&feed=atom&action=historyComparative study of major ab initio software for materials science - Revision history2024-03-29T08:07:59ZRevision history for this page on the wikiMediaWiki 1.31.10https://snicdocs.nsc.liu.se/w/index.php?title=Comparative_study_of_major_ab_initio_software_for_materials_science&diff=4962&oldid=prevPeter Larsson (PDC): Created page with "{{project info |description=Comparing major ab initio software for materials science |fields=Computational materials science |financing=SNIC |active=yes |start date=2012-02-01 |e..."2013-04-22T13:13:54Z<p>Created page with "{{project info |description=Comparing major ab initio software for materials science |fields=Computational materials science |financing=SNIC |active=yes |start date=2012-02-01 |e..."</p>
<p><b>New page</b></p><div>{{project info<br />
|description=Comparing major ab initio software for materials science<br />
|fields=Computational materials science<br />
|financing=SNIC<br />
|active=yes<br />
|start date=2012-02-01<br />
|end date= 2014-02-01<br />
}}<br />
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This project aims to compare the speed, parallel scaling, and usability of several high profile ab initio software packages for materials science, viz. VASP, Quantum Espresso, ABINIT, and GPAW. It was initiated by request of the SeRC electronic structure community. So far, studies of VASP vs ABINIT, and VASP vs Quantum Espresso (still ongoing) have been published on [http://www.nsc.liu.se/~pla Peter Larsson's blog at NSC]. The aim is to also investigate the GPAW finite-difference code.<br />
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== Members ==<br />
{{#ask: [[Category:Person]] [[project::{{PAGENAME}}]]<br />
|?centre<br />
|?role<br />
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}}</div>Peter Larsson (PDC)