TY - GEN
T1 - Bridging the gaps
T2 - 35th International Convention on Information and Communication Technology, Electronics and Microelectronics, MIPRO 2012
AU - Memon, Shahbaz
AU - Rybicki, Jedrzej
AU - Riedel, Morris
AU - Memon, Shiraz
AU - Yen, Eric
PY - 2012
Y1 - 2012
N2 - Clouds have emerged as a new paradigm to access compute, storage, and networked resources in secure and cost effective manner. Their major benefits are seen in the commercial domain with its key features such as on-demand and more flexible resource provisioning, pay per use, and customized application environments. Also research communities such as High Energy Physics (HEP), Biology, and Neuroscience are investigating the applicability of Clouds, with their strengths and weaknesses in scientific environments. In this paper we will show that in scientific environments there are certain areas where cloud services should be exploited to support the challenging e-Science requirements. Among them are, support for virtual communities, dynamic service and resource discovery, identity and resource federation, and access to data catalogues. The Grid community has actively contributed to address some of these issues, thus we propose to reuse existing efforts to complement Cloud services with Grid computing best practices, production services, and experiences, including standardization. In this paper we will provide guidelines of how to realize multi-cloud federated deployments based on a survey of existing Grid technologies in context augmenting it with lessons learned gained in scientific environments. The contribution focuses on the areas of compute, data, information, and security. We will also show potential benefits that scientists can gain by adopting proposed solutions in cloud-based deployments.
AB - Clouds have emerged as a new paradigm to access compute, storage, and networked resources in secure and cost effective manner. Their major benefits are seen in the commercial domain with its key features such as on-demand and more flexible resource provisioning, pay per use, and customized application environments. Also research communities such as High Energy Physics (HEP), Biology, and Neuroscience are investigating the applicability of Clouds, with their strengths and weaknesses in scientific environments. In this paper we will show that in scientific environments there are certain areas where cloud services should be exploited to support the challenging e-Science requirements. Among them are, support for virtual communities, dynamic service and resource discovery, identity and resource federation, and access to data catalogues. The Grid community has actively contributed to address some of these issues, thus we propose to reuse existing efforts to complement Cloud services with Grid computing best practices, production services, and experiences, including standardization. In this paper we will provide guidelines of how to realize multi-cloud federated deployments based on a survey of existing Grid technologies in context augmenting it with lessons learned gained in scientific environments. The contribution focuses on the areas of compute, data, information, and security. We will also show potential benefits that scientists can gain by adopting proposed solutions in cloud-based deployments.
UR - https://www.scopus.com/pages/publications/84865090278
M3 - Conference contribution
SN - 9789532330724
T3 - MIPRO 2012 - 35th International Convention on Information and Communication Technology, Electronics and Microelectronics - Proceedings
SP - 411
EP - 416
BT - MIPRO 2012 - 35th International Convention on Information and Communication Technology, Electronics and Microelectronics - Proceedings
Y2 - 21 May 2012 through 25 May 2012
ER -