May 12, 2003
- National research network of the Netherlands chosen as European connection point for leading edge scientific projects.
- Latest 10 gigabit/s optical link supports TransLight, a global initiative to test the most aggressive scientific applications of this decade.
- Seamless end-to-end solution from Global Crossing provides quality and robustness for next generation scientific and lambda grid applications.
- High performance lambda technology will play a crucial role in this global-scale cyber infrastructure.
- Global Crossing extends longstanding SURFnet partnership based upon cutting edge networking, robustness, reliability and quality of service.
AMSTERDAM, The Netherlands -- Global Crossing has
been awarded a contract by the Netherlands national research network,
SURFnet, to provision a 10 Gbit/s lambda link between the Dutch advanced
optical infrastructure NetherLight in Amsterdam and the StarLight research
facility in Chicago. This transatlantic connection is one of the essential
pieces in the creation of TransLight, a global-scale experimental
networking initiative that will support the most aggressive e-science
applications of this decade. Half of the link capacity will also be used
to connect the national research networks in the U.S. and Canada to the
GEANT Network in Europe.
Planned to go live in July, this new circuit completes a transparent,
global, super performance network. SURFnet's selection to complete the
transatlantic connection confirms its reputation as a leading European
center for networking innovation and excellence.
The move to lambda technology is part of a renewal plan by SURFnet in
the Netherlands to extend and enhance its network. SURFnet enjoys a close
working relationship with StarLight, the two centers acting as hubs for a
vast optical network serving scientists and engineers worldwide. The
latest link is a result of this partnership, with StarLight providing
funds from the U.S. National Science Foundation (NSF) and SURFnet
procuring and managing the link.
TransLight is an international grid of electronically and optically
switched circuits. It currently consists of multiple lambda circuits
between North America and Europe.
Tom DeFanti, principal investigator of StarLight, said, "NSF's
e-scientists are clear that the most aggressive e-science applications of
this decade require ultra-high-bandwidth international Internet services
with known and knowable qualities. TransLight will enable e-scientists and
grid researchers to experiment with deterministic provisioning of
dedicated circuits for moving huge amounts of data and supporting
real-time collaboration with high-resolution visualization. TransLight
will provide high-performance capabilities that complement, but do not
replace, international research production services."
Kees Neggers, managing director of SURFnet, said, "We're pleased that
SURFnet has been chosen for this NSF sponsored connection between North
America and Europe. It confirms the success of the Gigaport project to
position the Netherlands as a leader in the development and use of
innovative Internet technology."
Erik-Jan Bos, manager network services of SURFnet, said, "For massive data
transfers, light path switching, also known as lambda networking, will play
an important role in the next generation of our network. Our challenge is
to upgrade to this new paradigm and to seamlessly integrate this into the
IP network. Meanwhile, we expect to be matching the robustness and
stability of traditional commercial networks. We are confident that the
Global Crossing lambda will contribute to this goal."
Phil Metcalf, managing director of Global Crossing Europe, said, "Once
again we are delighted to help SURFnet and their research partners
worldwide turn their vision into reality. SURFnet and Global Crossing have
collaborated closely over the years and we continue to meet their advanced
networking aspirations as SURFnet pursues its quest for the promotion of
new levels of scientific research."
Lambda networking uses the technology and services
surrounding multiple optical wavelengths (referred to as lambdas) to
provide independent communications channels along a strand of optical
fibre. It provides speeds easily scaleable up to 10Gbit/s, lowers the
costs of high capacity circuits and directly interfaces with high-speed
local area network technologies.
Chicago's StarLight facility and SURFnet in the
Netherlands are pushing the limits of this technology. SURFnet expects
that lambda switching will be in production for its own next generation
network, SURFnet6, part of a far-sighted roadmap to make available
multitudes of 1Gbit/s and 10Gbit/s light paths to service-demanding
customers.
Global Crossing has provided SURFnet direct connectivity
between SARA, the Dutch national expertise center in the field of
high-performance computing and high-performance networking, and StarLight
since October 2001. In July 2002, Global Crossing signed a 15-year
contract with SURFnet for a dark fibre link with ASTRON, the Netherlands
foundation for Research in Astronomy. And in October 2002, Global Crossing
commissioned a multi-gigabit Internet and a 10Gbit/s lambda circuit to
CERN, the European organization for nuclear research in Geneva. In April,
Global Crossing was again selected for a multiple fiber connection to pass
terabyte traffic streams between ASTRON and its radio telescopes.
Global Crossing has a reputation as a premier network provider to the
international academic and research community. It supports DANTE, the
organization responsible for managing the world's largest academic and
research network, GEANT. Global Crossing has commissioned a multi-gigabit
IP Transit Service to DANTE which operates a 10Gbit/s European IP backbone
to connect up to 3,500 research and educational establishments in more
than 30 countries around Europe. In addition, Global Crossing supports the
Brazilian National Research and Education Network (RNP) and FAPESP
(Fundacao de Amparo a Pesquisa do Estado de Sao Paulo), the largest
academic research institution in Brazil.
About SURFnet and NetherLight
SURFnet operates and innovates the national research network, to which
150 institutions in higher education and research in the Netherlands are
connected. To remain in the lead SURFnet puts in a sustained effort to
improve the infrastructure and to develop new applications to give users
faster and better access to new Internet services. An example of SURFnet's
latest innovative initiatives is NetherLight, an experimental optical
Internet interconnection point in Amsterdam. Research networks and
institutes in the Netherlands and abroad can connect their lambdas in
order to research models and techniques for future generations of Optical
Internet Exchanges.
About StarLight
StarLight SM, the optical STAR TAP
SM initiative, is an advanced optical
infrastructure and proving ground for network services optimized for
high-performance applications. Operational since summer 2001, StarLight is
a 1GigE and 10GigE switch/router facility for high-performance access to
participating networks and will ultimately become a true optical switching
facility for wavelengths. StarLight is being developed by the Electronic
Visualization Laboratory (EVL) at the University of Illinois at Chicago
(UIC), the International Center for Advanced Internet Research (iCAIR) at
Northwestern University, and the Mathematics and Computer Science Division
at Argonne National Laboratory, in partnership with Canada's CANARIE and
the Netherlands' SURFnet. STAR TAP and StarLight are made possible
by major funding from the US National Science Foundation to the University
of Illinois at Chicago. STAR TAP and StarLight are service marks of
the Board of Trustees of the University of Illinois.
About TransLight
TransLight is a global-scale experimental networking initiative that
supports prototypes for the most aggressive e-science applications of this
decade. TransLight consists of multiple Gigabit Ethernet (GigE) circuits
between North America, Europe and Asia via StarLight in Chicago.
TransLight enables grid researchers to experiment with deterministic
provisioning of dedicated circuits, and then compare the results with
standard and experimental aggregated Internet traffic. Methods to be
tested and compared include moving large amounts of data, supporting
real-time collaboration and visualization, and enabling globally
distributed computing at rates that equal the fast proliferation of such
facilities. This new cyber infrastructure, built of lambda networks
connecting distributed computing resources with advanced grid services, is
being designed by global, interdisciplinary teams of e-scientists,
application programmers, networking engineers, electrical/computer
engineers and computer scientists. These teams are attacking challenging
research issues and developing innovative solutions for the development of
a lambda grid of electronically and optically switched circuits and
advanced grid services.
About Global Crossing
Global Crossing provides telecommunications solutions over the world's
first integrated global IP-based network, which reaches 27 countries and
more than 200 major cities around the globe. Global Crossing serves many
of the world's largest corporations, providing a full range of managed
data and voice products and services.
On January 28, 2002, Global Crossing Ltd. and certain of its
subsidiaries (excluding Asia Global Crossing and its subsidiaries)
commenced Chapter 11 cases in the United States Bankruptcy Court for the
Southern District of New York (Bankruptcy Court) and coordinated
proceedings in the Supreme Court of Bermuda (Bermuda Court). On the same
date, the Bermuda Court granted an order appointing joint provisional
liquidators with the power to oversee the continuation and reorganization
of the Bermuda-incorporated companies' businesses under the control of
their boards of directors and under the supervision of the Bankruptcy
Court and the Bermuda Court. Additional Global Crossing subsidiaries
commenced Chapter 11 cases on April 23, August 4 and August 30, 2002, with
the Bermuda incorporated subsidiaries filing coordinated insolvency
proceedings in the Bermuda Court. The administration of all the cases
filed subsequent to Global Crossing's initial filing on January 28, 2002
has been consolidated with that of the cases commenced on January 28,
2002. Global Crossing's Plan of Reorganization, which was confirmed by the
Bankruptcy Court on December 26, 2002, does not include a capital
structure in which existing common or preferred equity will retain any
value. Global Crossing expects to emerge from bankruptcy in the first half
of 2003.
On November 18, 2002, Asia Global Crossing Ltd., a majority-owned
subsidiary of Global Crossing, and its subsidiary, Asia Global Crossing
Development Co., commenced Chapter 11 cases in the United States
Bankruptcy Court for the Southern District of New York and coordinated
proceedings in the Supreme Court of Bermuda, both of which are separate
from the cases of Global Crossing. Asia Global Crossing has announced that
no recovery is expected for Asia Global Crossing's shareholders. Asia
Netcom, a company organized by China Netcom Corporation (Hong Kong) on
behalf of a consortium of investors, has acquired substantially all of
Asia Global Crossing's operating subsidiaries except Pacific Crossing
Ltd., a majority-owned subsidiary of Asia Global Crossing that filed
separate bankruptcy proceedings on July 19, 2002. Global Crossing no
longer has control of or effective ownership in any of the assets formerly
operated by Asia Global Crossing.
Contacts:
Global Crossing
Mish Desmidt
mish.Desmidt @ globalcrossing.com
ph: +44.118.908.67.89
StarLight
Laura Wolf
laura @ evl.uic.edu
ph: +1.312.996.3002
SURFnet
Sandra Passchier
sandra.passchier @ surfnet.nl
ph: +31 30 2305 315
The Communications Group
Terry Davidson
terry @ eurocom.be
ph: +32.2.640.92.07
