The grid: blueprint for a new computing infrastructure
The grid: blueprint for a new computing infrastructure
A differentiated services implementation for high-performance TCP flows
Computer Networks: The International Journal of Computer and Telecommunications Networking - Pioneering tomorrow's Internet Selected papers from the TERENA Networking Conference 2000 22–25 May 2000, Lisbon, Portugal
Grids, the TeraGrid, and Beyond
Computer
QoS as Middleware: Bandwidth Reservation System Design
HPDC '99 Proceedings of the 8th IEEE International Symposium on High Performance Distributed Computing
Future Generation Computer Systems - iGrid 2002
Communications of the ACM - Blueprint for the future of high-performance networking
GARA: a uniform quality of service architecture
Grid resource management
Design of logical topologies for wavelength-routed optical networks
IEEE Journal on Selected Areas in Communications
Co-scheduling in Lambda Grid Systems by means of Ant Colony Optimization
Future Generation Computer Systems
Network-aware scheduling for real-time execution support in data-intensive optical Grids
Future Generation Computer Systems
Towards a federated Metropolitan Area Grid environment: The SCoPE network-aware infrastructure
Future Generation Computer Systems
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In the forthcoming new era of truly distributed computing, industry, businesses, and home users are placing complex and challenging demands on the transport network, now powered by the emerging photonic technologies, about Quality-of-Service (QoS) assurances that are required for new real-time computing and storage service applications geographically distributed worldwide according to the Grid model. There is the need to devise mechanisms for QoS provisioning in IP over WDM networks that must consider the physical characteristics and limitations of the optical domain to ensure the proper treatment of service classes when passing from the electrical switching to the optical domain and back. In addition, these mechanisms should be directly accessible to Grid applications to make them able to request and release network resources as they need. A (G)MPLS-based control plane combined with a wavelength-routed optical network is seen as a very promising approach for the realization of transport infrastructures for the future "photonic empowered" Grid computing paradigm, since it allows native user-controlled bandwidth resources and class-of-service provisioning, that is one of the strongest requirements for truly distributed computing. Considering this, we propose a general framework for providing differentiated services QoS to Grid applications in wavelength-routed photonic networks, built on the strengths of GMPLS for dynamic path selection and wavelength assignment. This framework makes it technically and economically viable to think of a set of computing, storage or combined computing storage nodes coupled through a high-performance optical network as one large computational and storage device.