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@INPROCEEDINGS{Riedel:141629,
author = {Riedel, Morris and Memon, Mohammad Shahbaz and Janetzko,
Florian and Attig, Norbert and Lippert, Thomas and Demeler,
Borries and Gorbet, Gary and Singh, Raminder and
Gunathilake, Lahiru and Marru, Suresh},
title = {{O}n {E}nabling {H}ydrodynamics {D}ata {A}nalysis of
{A}nalytical {U}ltracentrifugation {E}xperiments},
volume = {21},
address = {Jülich},
publisher = {Forschungszentrum Jülich GmbH, Zentralbibliothek, Verlag},
reportid = {FZJ-2014-00002},
series = {IAS Series},
pages = {29-38},
year = {2013},
comment = {UNICORE Summit 2013},
booktitle = {UNICORE Summit 2013},
abstract = {A new modular approach to enable scientific applications
with UNICORE has been designed which employs modern elements
of seamless web based access for abstraction and
encapsulation. The approach uses the Apache Airavata
software framework which is applicable and used by a wide
variety of scientific gateways, which represent a
community-oriented web based interface to computing and
storage resources. Scientific gateways have shown a broad
impact in computational science and brought many advances to
various scientific communities in the last decade and even
more research advances are expected when using them with the
everincreasing amounts of large quantities of datasets that
are often referred to as ’big data’. This paper provides
insights into benefits for the UNICORE community in working
with existing scientific gateways and their strong user
communities. While this new approach is more general in
nature, we offer throughout the paper a concrete example of
how initial work with scientific gateway communities enable
a hydrodynamics data analysis of analytical
ultracentrifugation experiments. The approach improves the
ease of use in using UNICORE by performing seamlessly
computational science so that more scientists can benefit
from the strong UNICORE capabilities and its underlying
computational resources. Furthermore the approach allows for
creating ’collaborative workspaces’ specifically
optimized for specific scientific communities, including
data and computing resources and to make existing datasets
accessible and useful to the broader scientific communities
that use scientific gateways on a daily basis. The design
approach has been tested in a real supercomputer deploment
which has been used by several researchers of a larger
scientific community in the bio-chemistry field. We report
first results of the inter-working of UNICORE with a
specific scientific gateway while not losing sight of the
more general applicability of the approach with other
gateways.},
month = {Jun},
date = {2013-06-18},
organization = {UNICORE Summit 2013, Leipzig
(Germany), 18 Jun 2013 - 18 Jun 2013},
cin = {JSC},
cid = {I:(DE-Juel1)JSC-20090406},
pnm = {412 - Grid Technologies and Infrastructures (POF2-412)},
pid = {G:(DE-HGF)POF2-412},
typ = {PUB:(DE-HGF)8 / PUB:(DE-HGF)7},
url = {https://juser.fz-juelich.de/record/141629},
}
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