Integrating Security Solutions to Support nanoCMOS Electronics Research

R. Sinnott, Christopher Bayliss, T. Doherty, David B. Martin, C. Millar, G. Stewart, J. Watt, A. Asenov, G. Roy, Scott Roy, C. Davenhall, B. Harbulot, M. Jones
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引用次数: 6

Abstract

The UK Engineering and Physical Sciences Research Council (EPSRC) funded project ¿Meeting the Design Challenges of nanoCMOS Electronics¿ (nanoCMOS) is developing a research infrastructure for collaborative electronics research across multiple institutions in the UK with especially strong industrial and commercial involvement. Unlike other domains, the electronics industry is driven by the necessity of protecting the intellectual property of the data, designs and software associated with next generation electronics devices and therefore requires fine-grained security. Similarly, the project also demands seamless access to large scale high performance compute resources for atomic scale device simulations and the capability to manage the hundreds of thousands of files and the metadata associated with these simulations. Within this context, the project has explored a wide range of authentication and authorization infrastructures facilitating compute resource access and providing fine-grained security over numerous distributed file stores and files. We conclude that no single security solution meets the needs of the project. This paper describes the experiences of applying X.509-based certificates and public key infrastructures, VOMS, PERMIS, Kerberos and the Internet2 Shibboleth technologies for nanoCMOS security. We outline how we are integrating these solutions to provide a complete end-to-end security framework meeting the demands of the nanoCMOS electronics domain.
集成安全解决方案,支持纳米ocmos电子研究
英国工程和物理科学研究委员会(EPSRC)资助的项目“满足纳米ocmos电子产品的设计挑战”(nanoCMOS)正在开发一个研究基础设施,用于英国多家机构之间的协作电子研究,特别是强大的工业和商业参与。与其他领域不同,电子行业是由保护与下一代电子设备相关的数据、设计和软件的知识产权的必要性驱动的,因此需要细粒度的安全性。同样,该项目还需要无缝访问大规模高性能计算资源,用于原子级设备模拟,以及管理与这些模拟相关的数十万个文件和元数据的能力。在此上下文中,该项目探索了广泛的身份验证和授权基础设施,以促进计算资源访问,并为众多分布式文件存储和文件提供细粒度的安全性。我们得出结论,没有单一的安全解决方案能够满足项目的需要。本文介绍了基于x .509的证书和公钥基础设施、VOMS、PERMIS、Kerberos和Internet2 Shibboleth技术在纳米ocmos安全中的应用经验。我们概述了我们如何集成这些解决方案,以提供一个完整的端到端安全框架,满足纳米ocmos电子领域的需求。
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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