SUNNYVALE, Calif., Nov. 29 – Infinera announced today the telecommunication industry’s first successful demonstration of a prototype Software Defined Network (SDN) Open Transport Switch (OTS) in partnership with the U.S. Department of Energy’s Energy Sciences Network’s (ESnet) Long Island Metropolitan Area Network (LIMAN) control plane test bed.

This proof-of-concept demonstration shows the potential of Transport SDN, extending the concepts and benefits of SDN to the dynamic optical transport layer. The OTS concept is a lightweight virtual transport switch that may be deployed on optical transport systems to interface with a SDN Controller via an extended version of the OpenFlow protocol. This approach has the potential to facilitate application-driven control over transport bandwidth services, including converged wavelength, OTN and packet transport technologies. By enabling multi-layer coordination and control, service providers will potentially be able to leverage Transport SDN to improve the utilization and efficiency of their network infrastructure, increase network resiliency, and deploy new services more rapidly while simultaneously simplifying and automating operations, lowering the total cost of network ownership.

In the demonstration, Infinera tested a prototype of the OTS running on the Infinera DTN platform, allowing ESnet’s optical transport network to be configured by an SDN controller via the OpenFlow protocol. ESnet enhanced its SDN controller and demonstrated on-demand bandwidth Ethernet services including bandwidth elasticity for data-intensive science experiments at Brookhaven National Laboratory on their LIMAN network, spanning from Manhattan, NY, to Upton, NY. The services were provisioned by a high-capacity bandwidth-on-demand application utilizing the SDN controller in three different transport network abstractions, including one based on Infinera’s standards-based GMPLS control plane, showcasing the potential to deploy Transport SDN in networks with existing control planes in production.

In order to implement OTS and extend SDN to the transport layer, the contributing platforms that are used to build this layer must be able to virtualize the digital and optical resources. Infinera’s Bandwidth Virtualization provides this abstraction by leveraging the integration of a standards-based GMPLS software control plane, integrated OTN switching and photonic integrated circuit (PIC) technology, providing a massive, shareable and programmable pool of optical transport capacity. In contrast, conventional optical transport systems are generally more static in nature, with limited or no integrated OTN switching, and do not easily support Transport SDN.

“The emerging era of data-intensive science demands the highest level of performance from the network. The ability for the network to scale and handle large data flows efficiently across a multi-layer network is an essential capability,” said ESnet Chief Technologist Inder Monga. “The type of bandwidth flexibility, automation and resource efficiency demonstrated in this test are critical to supporting the large-scale data transfer requirements of data-driven science research.”

Brookhaven National Lab’s networking team and researchers used this SDN platform to experiment with ultra-high speed data transfer applications being developed for next-generation networks using RDMA over Ethernet protocols. “Big data applications hosted at BNL and other DOE national labs routinely move petabytes of data over LAN and WAN and require the capability of fully utilizing the current and next generation of 100Gbps networks,” said Scott Bradley, Manager of Network Services at Brookhaven National Laboratory. “Software defined networks helps us to meet this challenge and allows us to implement and validate the data transport protocols/software intra-data centers and over WAN in the speed of 100Gbps and beyond.”

“This pioneering demonstration is an important first step on the path toward enabling Transport SDN,” said Chris Liou, VP Network Strategy, Infinera. “For service providers interested in deploying Transport SDN, we believe the OTS can play a key role in realizing many benefits, including simplified provisioning of bandwidth services in multi-tiered, multi-vendor, multi-domain environments, increased efficiency and utilization of network resources, and an open, programmable transport network for enhancing integration and automation with applications.”

“SDN and OpenFlow are finding new applications in the market every day,” said Dan Pitt, Executive Director of the Open Networking Foundation, which standardizes OpenFlow and promotes SDN. “We are excited to see accelerating industry adoption and application of these breakthrough technologies to new areas for the benefit of operators and users with critical performance and flexibility needs.”

About Infinera

Infinera specializes in Digital Optical Networking systems that are designed to continually improve the economics of optical networking by combining the speed of optics with the simplicity of digital. Infinera is unique in its use of breakthrough semiconductor technology: Large Scale Photonic Integrated Circuit (PIC). Infinera's systems leverage PIC technology to provide customers with a service-ready architecture that enables faster time-to-revenue and greater profitability through network efficiency and the ability to rapidly deliver differentiated services without reengineering their optical infrastructure.

About ESnet

ESnet provides the high-bandwidth, reliable connections that link scientists at national laboratories, universities and other research institutions, enabling them to collaborate on some of the world's most important scientific challenges including energy, climate science, and the origins of the universe. Funded by the U.S. Department of Energy's (DOE) Office of Science and located within the Scientific Networking Division at Lawrence Berkeley National Laboratory, ESnet provides scientists with access to unique DOE research facilities and computing resources.

About Brookhaven National Laboratory

One of ten national laboratories overseen and primarily funded by the Office of Science of the U.S. Department of Energy (DOE), Brookhaven National Laboratory conducts research in the physical, biomedical, and environmental sciences, as well as in energy technologies and national security. Brookhaven Lab also builds and operates major scientific facilities available to university, industry and government researchers. Brookhaven is operated and managed for DOE's Office of Science by Brookhaven Science Associates, a limited-liability company founded by the Research Foundation for the State University of New York on behalf of Stony Brook University, the largest academic user of Laboratory facilities, and Battelle, a nonprofit, applied science and technology organization.

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Source: Infinera