Challenges and Modifications for Creating a MoSGrid Science Gateway for US and European Infrastructures

2015 7th International Workshop on Science Gateways Pub Date : 2015-06-03 DOI:10.1109/IWSG.2015.10

S. Gesing, Richard Grunzke, Jens Krüger, S. Herres‐Pawlis, A. Hoffmann

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引用次数: 3

Abstract

The established German MoSGrid science gateway serves the computational chemistry community in the areas of quantum chemistry, molecular dynamics and docking with intuitive user interfaces for jobs, workflows and data as well as metadata management. It is designed independent of the underlying infrastructure and developed on top of gUSE/WS-PGRADE, which is capable of connecting to diverse grid, cloud and batch infrastructures. However, quite a few of its user-friendly features and pre-configured workflows are dependent on the service-oriented grid middleware UNICORE and on installed computational chemistry tools on the target resources. Furthermore, the security mechanisms rely on SAML assertions to provide single sign-on to the different available resources. This paper gives an overview on the challenges and modifications, which have been necessary to provide an international MoSGrid science gateway exploiting XSEDE and PRACE infrastructures. This work was part of the XSEDE-PRACE interoperability project, which selected three use cases out of US- and European-wide applications.

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为美国和欧洲基础设施创建MoSGrid科学网关的挑战和修改

已建立的德国MoSGrid科学网关服务于量子化学，分子动力学领域的计算化学社区，并与直观的用户界面对接，用于作业，工作流程和数据以及元数据管理。它的设计独立于底层基础设施，并在gUSE/WS-PGRADE之上开发，能够连接到各种网格、云和批处理基础设施。然而，它的许多用户友好特性和预配置工作流依赖于面向服务的网格中间件UNICORE和目标资源上安装的计算化学工具。此外，安全机制依赖于SAML断言来提供对不同可用资源的单点登录。本文概述了利用XSEDE和PRACE基础设施提供国际MoSGrid科学网关所必需的挑战和修改。这项工作是XSEDE-PRACE互操作性项目的一部分，该项目从美国和欧洲范围的应用程序中选择了三个用例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 7th International Workshop on Science Gateways

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