A multiplier adjustment method for the generalized assignment problem
Management Science
Grid Computing: Making the Global Infrastructure a Reality
Grid Computing: Making the Global Infrastructure a Reality
Data-intensive e-science frontier research
Communications of the ACM - Blueprint for the future of high-performance networking
Computer Networks: The International Journal of Computer and Telecommunications Networking
Resilience in multilayer networks
IEEE Communications Magazine
Survivable lightpath routing: a new approach to the design of WDM-based networks
IEEE Journal on Selected Areas in Communications
A Cost Efficient Design of Virtual Infrastructures with Joint Node and Link Mapping
Journal of Network and Systems Management
Design of reliable virtual infrastructure with resource sharing
Computer Networks: The International Journal of Computer and Telecommunications Networking
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Some modern distributed applications require cooperation among multiple geographically separated computing facilities to perform intensive computing at the end sites and large-scale data transfers in the wide area network. It has been widely recognized that WDM networks are cost-effective means to support data transfers in this type of data-intensive applications. However, neither the traditional approaches to establishing lightpaths between given source destination pairs nor the existing application-level approaches that only consider computing resources but take the underlying connectivity for granted are sufficient. In this article we identify key limitations and issues in existing systems, and focus on joint resource allocation of both computing resources and network resources in federated computing and network systems. A variety of resource allocation schemes that provide modern distributed computing applications with performance and reliability guarantees are presented.