Berkeley, CA. July 13, 2011 — The U.S. Department of Energy’s (DOE) Lawrence Berkeley National Laboratory (Berkeley Lab) today announced a major step toward creating one of the world’s fastest scientific networks to accelerate research in fields ranging from advanced energy solutions to particle physics. Known as the Advanced Networking Initiative (ANI), the effort represents a $62 million multi-year investment by the DOE Office of Science in next-generation networking technology.
“As science becomes increasingly data-driven and global in scale, it’s critical that we create an infrastructure that will enable our scientists to collaborate and compete successfully in the search for solutions to some of the world’s biggest challenges in energy,” said DOE Office of Science Director William F. Brinkman. “The Advanced Networking Initiative is the kind of investment that will help secure and maintain America’s scientific pre-eminence and improve the quality of life for all of us.”
In its initial phase, the Advanced Networking Initiative (ANI) 100 gigabit-per second (100 Gbps) prototype network will connect the three DOE unclassified supercomputing centers: the National Energy Research Scientific Computing Center (NERSC) at Berkeley Lab, Oak Ridge Leadership Computing Facility (OLCF), and Argonne Leadership Computing Facility (ALCF), as well as the Manhattan Landing International Exchange Point (MANLAN). This prototype will lead to a nationwide 100 Gbps scientific network, a key step toward the DOE's vision of a 1 terabit network connecting its exascale supercomputers. Under the subcontracting agreement that Berkeley Lab signed with Internet2, the Department of Energy’s Energy Sciences Network (ESnet) staff will work with Internet2 to develop a 100 gigabit- per-second (100 Gbps) prototype network, increasing the information-carrying capacity of DOE’s present scientific network by several orders of magnitude.
“Berkeley Lab has long been a key part of the nation’s scientific leadership in physics, chemistry, and energy research,” said Paul Alivisatos, director of Lawrence Berkeley National Laboratory. “Berkeley Lab has continued this tradition through advanced computation and networking used at the forefront of modern scientific inquiry. It’s fitting that, when it came to building the next-generation network, the DOE turned to Berkeley Lab and ESnet to ensure that ANI meets the needs of the U.S. research community to work with the increasingly complex data flows associated with tackling our nation’s most urgent challenges and leading the world in collaborative, discovery-class research.”
The prototype network is a crucial bridge to a planned nationwide 100 Gbps scientific network that will support thousands of DOE scientists in their research on environmental modeling, developing energy solutions, and exploring the fundamental nature of the universe, as well as in accessing data from one-of-a-kind experimental facilities such as the Large Hadron Collider. A portion of the funding also goes to the development of a national-scale network testbed, made available to researchers and industry for experiments with new network technologies, protocols and applications to help them get up to speed on the new 100 Gbps capability.
To build the national network, Internet2 will use fiber strands on Colorado-based telecommunications firm Level 3 Communications’ Tier 1 fiber-optic network, and will provide cutting-edge optical networking equipment from Ciena Corporation, a Maryland-based provider of network infrastructure solutions. By collaborating on complementary projects, ESnet and Internet2 hope to leverage both the ANI investment and Internet2’s own investments to maximize the value of both, to deliver unprecedented network capabilities to an increased pool of potential users.
The 100 Gbps prototype network, including hardware and dark fiber, will initially connect three DOE unclassified supercomputing centers: the National Energy Research Scientific Computing Center (NERSC) at Berkeley Lab, Oak Ridge Leadership Computing Facility (OLCF), and Argonne Leadership Computing Facility (ALCF), as well as the Manhattan Landing International Exchange Point (MANLAN).
“Internet2 is excited by the synergies created through this joint project, and how it builds on an already solid relationship with Berkeley Lab to create a flagship scientific network of unrivaled speed and capacity,” said Dave Lambert, Internet2 president and CEO. “We believe the new ANI network will not only play a vital role in helping our community fulfill their research, education and service goals, but will create a host of economic opportunities and assure the U.S. a leading role in global science for many years to come.”
An Investment in Scientific Competitiveness
This kind of stimulus investment in IT infrastructure is intended to spur U.S. scientific competitiveness by leading to accelerated development and wider deployment of future technologies, speeding the exchange of data and creating new ripples of scientific innovation—and the jobs that come with it. According to Steve Cotter, ESnet Department Head, this ANI funding is enabling Berkeley Lab and Internet2 to advance 100 Gbps technology development, lower its cost, and speed its adoption by the scientific community.
Networks like ESnet are ramping up capacity as the volume of data generated by scientific research rises exponentially. For some scientists, ANI’s 100 Gbps capabilities cannot come fast enough.
“We now have many more people wanting to access and then replicate climate data than in previous years,” said Dean Williams, climate scientist at Lawrence Livermore National Laboratory.
As part of the agreement, the Berkeley Lab has negotiated a 20-year lease on dark fiber capacity to be leveraged for so-called “disruptive” research, allowing DOE, industry and university researchers to use the facility to investigate new networking technologies and protocols, and effectively locking in the cost of future network infrastructure needs for the next two decades.
The ANI network will also jump-start ESnet’s research in support of ‘green” energy-efficient networking–a hot priority as data volumes and network and supercomputing center energy demands keep rising. With Berkeley Lab’s commitment to lead efforts in carbon reduction and energy efficiency for research, the ANI 100 Gbps prototype will be instrumental in providing measurements of network energy consumption on a real-time basis. ESnet intends to monitor and archive energy usage, making this data available to researchers so they can better understand energy consumption as they develop the next generation of energy-smart networking devices.
Lawrence Berkeley National Laboratory received $62 million from DOE’s Office of Science to create the Advanced Networking Initiative (ANI) in order to develop a prototype scientific network that can operate at 100 Gbps speeds. The 100 Gbps prototype network is a key step to the DOE’s vision of an eventual 1 terabit network connecting DOE facilities.
About Berkeley Lab
Lawrence Berkeley National Laboratory addresses the world’s most urgent scientific challenges by advancing sustainable energy, protecting human health, creating new materials, and revealing the origin and fate of the universe. Founded in 1931, Berkeley Lab’s scientific expertise has been recognized with 12 Nobel prizes. The University of California manages Berkeley Lab for the U.S. Department of Energy’s Office of Science. For more, visit www.lbl.gov.
ESnet provides the high-bandwidth, reliable connections that link scientists at over 40 national laboratories, universities and other research institutions, enabling them to work together on some of the world’s most important scientific challenges including energy, climate science, and the origins of the universe. Funded by the DOE Office of Science, and managed and operated by the ESnet team at Lawrence Berkeley National Laboratory, ESnet provides scientists with access to unique DOE research facilities and computing resources, as well as to scientific collaborators including research and education (R&E) networks around the world. For more information, visit http://www.es.net.
Internet2 is an advanced networking consortium led by the research and education community. An exceptional partnership spanning U.S. and international institutions who are leaders in the worlds of research, academia, industry and government, Internet2 is developing breakthrough cyberinfrastructure technologies that support the most exacting applications of today—and spark the most essential innovations of tomorrow. Led by its members and focused on their current and future networking needs since 1996, Internet2 blends its human, IP and optical networks to develop and deploy revolutionary Internet technologies. Activating the same partnerships that produced today’s Internet, the Internet2 community is forging the Internet of the future. For more information, see http://www.internet2.edu.