Open Science in the Cloud: Towards a Universal Platform for Scientific and Statistical Computing - Springer

Use the link to access payment options for the book chapter published in the Handbook of Cloud Computing available from Springer.  The abstract reads as follows: "The UK, through the e-Science program, the US through the NSF-funded cyber infrastructure and the European Union through the ICT Calls aimed to provide 'the technological solution to the problem of efficiently connecting data, computers, and people with the goal of enabling derivation of novel scientific theories and knowledg'.1 The Grid (Foster, 2002; Foster; Kesselman, Nick, & Tuecke, 2002), foreseen as a major accelerator of discovery, didn’t meet the expectations it had excited at its beginnings and was not adopted by the broad population of research professionals. The Grid is a good tool for particle physicists and it has allowed them to tackle the tremendous computational challenges inherent to their field. However, as a technology and paradigm for delivering computing on demand, it doesn’t work and it can’t be fixed. On one hand, 'the abstractions that Grids expose – to the end-user, to the deployers and to application developers – are inappropriate and they need to be higher level' (Jha, Merzky, & Fox), and on the other hand, academic Grids are inherently economically unsustainable. They can’t compete with a service outsourced to the Industry whose quality and price would be driven by market forces. The virtualization technologies and their corollary, the Infrastructure-as-a-Service (IaaS) style cloud, hold the promise to enable what the Grid failed to deliver: a sustainable environment for computational sciences that would lower the barriers for accessing federated computational resources, software tools and data; enable collaboration and resources sharing and provide the building blocks of a ubiquitous platform for traceable and reproducible computational research."