The MoSGrid (Molecular Simulation Grid, http://www.mosgrid.de) project aims to provide remote computational chemistry services within the German Grid Initiative (D-Grid).
Submission and monitoring of compute jobs, as well as the retrieval of postprocessed results are realized through a web based portal. The use of standardized portlets and a generally modular approach allows for the simultaneous and independent implementation of frontends for different molecular simulation codes. To date, functional prototypes of portlets for applications from the quantum chemical and the molecular dynamics domain are available, being represented by Gaussian and Gromacs, respectively. The implementation of other quantum chemical codes, as requested by the community, and of codes for docking simulations is in preparation.
MoSGrid will furthermore foster efficient and collaborative work by providing secure but shareable repositories for validated data, as well as for reusable recipes and workflows [1-3].
Contributor Information
S Herres-Pawlis, Email: sonja.herres-pawlis@tu-dortmund.de.
L Packschies, Email: packschies@uni-koeln.de.
References
- Wewior M, Packschies L, Blunk D, Wickeroth D, Warzecha K-D, Herres-Pawlis S, Gesing S, Breuers S, Krüger J, Birkenheuer G, Lang U. Proceedings of the International Workshop on Science Gateways (IWSG 2010) Catania; 2010. The MoSGrid Gaussian Portlet – Technologies for the Implementation of Portlets for Molecular Simulations. accepted for publication. [Google Scholar]
- Birkenheuer G, Breuers S, Brinkmann A, Blunk D, Fels G, Gesing S, Herres-Pawlis S, Kohlbacher O, Krüger J, Packschies L. Grid-Workflows in Molecular Science. Lecture Notes in Informatics (LNI) 2010;160:177–184. [Google Scholar]
- Niehörster O, Birkenheuer G, Brinkmann O, Blunk D, Elsässer B, Herres-Pawlis S, Krüger J, Niehörster J, Packschies L, Fels G. Providing Scientific Software as a Service in Consideration of Service Level Agreements. Proceedings of the Cracow Grid Workshop (CGW'09) 2009. pp. 55–63.