Eric L. Boyd scite author profile

Abstract. In the area of network monitoring a lot of tools are already available to measure a variety of metrics. However, these tools are often limited to a single administrative domain so that no established methodology for the monitoring of network connections spanning over multiple domains currently exists. In addition, these tools only monitor the network from a technical point of view without providing meaningful network performance indicators for different user groups. These indicators should be derived from the measured basic metrics.In this paper a Service Oriented Architecture is presented which is able to perform multi-domain measurements without being limited to specific kinds of metrics. A Service Oriented Architecture has been chosen as it allows for increased flexibility and scalability in comparison to traditional software engineering techniques.

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Instantiating a Global Network Measurement Framework

Tierney¹,

Boote²,

Boyd³

et al. 2008

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perfSONAR is a web services-based infrastructure for collecting and publishing network performance monitoring. A primary goal of perfSONAR is making it easier to solve end-to-end performance problems on paths crossing several networks. It contains a set of services delivering performance measurements in a federated environment. These services act as an intermediate layer, between the performance measurement tools and the diagnostic or visualization applications. This layer is aimed at making and exchanging performance measurements across multiple networks and multiple user communities, using well-defined protocols. This paper summarizes the key perfSONAR components, and describes how they are deployed by the US-LHC community to monitor the networks distributing LHC data from CERN. All monitoring data described herein is publicly available, and we hope the availability of this data via a standard schema will inspire others to contribute to the effort by building network data analysis applications that use perfSONAR.

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Hierarchically Federated Registration and Lookup within the perfSONAR Framework

Zurawski

Boote²,

Boyd³

et al. 2007

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A widely-distributed network monitoring system requires a scalable discovery mechanism. The "Lookup Service" component of the perJSONAR framework is able to manage component registration, distill resource data into tractable units, and respond to queries regarding system andperformance information.A model of organizing and distributing information is presented to support both dynamic environments where services frequently change as well where different administrative configuration requirements exist. These interactions are accomplished by forming 'federated hierarchies" to share information amongst the various logical overlays.1-4244-0799-0/07/$25.00 t2007 IEEE

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The DYNES Instrument: A Description and Overview

Zurawski

Ball

Barczyk

et al. 2012

J. Phys.: Conf. Ser.

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Scientific innovation continues to increase requirements for the computing and networking infrastructures of the world. Collaborative partners, instrumentation, storage, and processing facilities are often geographically and topologically separated, as is the case with LHC virtual organizations. These separations challenge the technology used to interconnect available resources, often delivered by Research and Education (R&E) networking providers, and leads to complications in the overall process of end-to-end data management. Capacity and traffic management are key concerns of R&E network operators; a delicate balance is required to serve both long-lived, high capacity network flows, as well as more traditional enduser activities. The advent of dynamic circuit services, a technology that enables the creation of variable duration, guaranteed bandwidth networking channels, allows for the efficient use of common network infrastructures. These gains are seen particularly in locations where overall capacity is scarce compared to the (sustained peak) needs of user communities. Related efforts, including those of the LHCOPN [3] operations group and the emerging LHCONE [4] project, may take advantage of available resources by designating specific network activities as a "high priority", allowing reservation of dedicated bandwidth or optimizing for deadline scheduling and predicable delivery patterns. This paper presents the DYNES instrument, an NSF funded cyberinfrastructure project designed to facilitate end-to-end dynamic circuit services [2]. This combination of hardware and software innovation is being deployed across R&E networks in the United States at selected end-sites located on University Campuses. DYNES is peering with international efforts in other countries using similar solutions, and is increasing the reach of this emerging technology. This global data movement solution could be integrated into computing paradigms such as cloud and grid computing platforms, and through the use of APIs can be integrated into existing data movement software.

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Eric L. Boyd

PerfSONAR: A Service Oriented Architecture for Multi-domain Network Monitoring

Instantiating a Global Network Measurement Framework

Hierarchically Federated Registration and Lookup within the perfSONAR Framework

The DYNES Instrument: A Description and Overview

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