1. ESnet Network Engineer Lawrence Berkeley National Laboratory
ESnet Update ESnet/Internet2 Joint Techs Albuquerque, New Mexico February 6, 2005
R. Kevin Oberman
ESnet Network Engineer Lawrence Berkeley National Laboratory

2. Physical Connectivity
Outline
Physical Connectivity
What’s new
BAMAN in production
LIMAN nearing production
CHIMAN under construction
New Circuits
Traffic Driving:
Interconnectivity
Architecture

3. ESnet SF Bay Area MAN Ring
NLR to Seattle
IP core to Chicago (Qwest)
2 λs (2 X 10 Gb/s channels) in a ring configuration, and delivered as 10 GigEther circuits
X current site bandwidth
Dual site connection (independent “east” and “west” connections) to each site
Used as a 10 Gb/s production IP ring and 2 X 10 Gb/s paths (for circuit services) to each site
Project completed 9/2005, on time and on budget
Joint Genome Institute
10 Gb/s optical channels
LBNL
λ1 production IP
λ2 SDN/circuits
NERSC
λ3 future
λ4 future
SF Bay Area
LLNL
SNLL
SLAC
ESnet MAN ring (Qwest circuits)
Qwest / ESnet hub
DOE Ultra Science Net (research net)
Level 3 hub
ESnet hubs and sites
NLR to San Diego
NASA Ames
IP core to El Paso

4. Long Island MAN Initial Configuration
CERN
Chicago (Qwest hub)
Starlight
Europe
Brookhaven National Lab, Upton, NY
Abilene NYSERNet SINet (Japan)
CANARIE (Canada)
HEANet (Ireland) Qatar
GEANT
ESnet boarder
demarcation
device
10GE
circuit
MAN LAN
USLHCnet
LI MAN DWDM
T320
Cisco 6509
ESnet IP core
1 GE or 10 GE
32 AoA, NYC
BNL
IP gateway
ESnet IP core (Qwest)
10 Gb/s circuits
International
LHCnet circuits (proposed) production IP core
SDN/provisioned virtual circuits
Washington
(Qwest hub)

5. Chicago MAN 4x10G Starlight 455 N. City Front 3x10G Fermilab Argonne
USLHCnet
4x10G
T320
Starlight
455 N. City Front
3x10G
ESnet IP
SDN
Fermilab
Argonne

6. New 10G Circuits
ESnet is nearing completion of a process to turn up 44 new 10G circuits in less than 12 months including:
MANs
16 circuits composing the San Francisco Bay Area MAN
2 circuits comprising the Long Island MAN (New York to Brookhaven)
15 circuits comprising the Chicago MAN (FNAL, ANL and StarLight)
NLR
3 circuits: San Diego to Sunnyvale, Sunnyvale to Seattle, hub to hub in Sunnyvale
Sites
1 circuit JLAB (via, MAX/NGIX-E, MATP, E-LITE)
1 circuit between NYC and DC to reach GEANT
1 circuit ORNL – Starlight - CHI-HUB(NBC)
Peering
1 circuit GEANT
1 circuit SNV – NASA-AMES

7. Other Circuits Completed: In the works: OC48 ALB-ELP
DS3 IARC-SNV (New Site)
OC3 ALB-KCP
In the works:
OC3 ALB-HUB-PANTEX <-- In build-out

8. The Office of Science U.S. Community*
Pacific Northwest
National Laboratory
Idaho National
Laboratory
Ames Laboratory
Argonne National Laboratory
Brookhaven
National
Laboratory
Fermi
National
Accelerator
Laboratory
Lawrence
Berkeley National
Laboratory
Stanford
Linear
Accelerator
Center
Princeton
Plasma
Physics
Laboratory
Lawrence Livermore
&
Sandia
National Laboratories
Thomas Jefferson National Accelerator Facility
Correct SLAC representation
General Atomics
Oak Ridge
National Laboratory
Sandia
National Laboratory
Los Alamos
National Laboratory
Institutions supported by SC
Major User Facilities
National
Renewable Energy Laboratory
DOE Specific-Mission Laboratories
DOE Program-Dedicated Laboratories
SC Program sites
DOE Multiprogram Laboratories

9. ESnet’s Physical Connectivity (Spring 2006)*
Japan (SINet)
Australia (AARNet)
Canada (CA*net4
Taiwan (TANet2)
Singaren
SINet (Japan)
Russia (BINP)
GÉANT
- France, Germany,
Italy, UK, etc
CA*net4 France
GLORIAD (Russia, China) Korea (Kreonet2
MREN
Netherlands
StarTap Taiwan (TANet2)
UltraLight
PNWGPoP/ PAcificWave
CERN
(USLHCnet CERN+DOE funded)
SEA
NLR Supplied Circuits
LIGO
MAN LAN Abilene
PNNL AU
ESnet IP core
MAN rings
Starlight
CHI-SL
Abilene
NYC
MIT
USN
Abilene
INEEL
Chi NAP
BNL
JGI
LVK
FNAL
LLNL
LBNL
AMES
ANL
ORAU DC
PPPL
SNLL
NERSC
LBNL DC
SNV
CHI
LLNL/LANL
DC Offices
MAE-E
SLAC
PAIX-PA
Equinix, etc.
OSC GTN NNSA
Equinix
SNV SDN
BECHTEL-NV
NREL
NASA Ames
USN
KCP DC
JLAB
ORNL
YUCCA MT
OSTI
ORAU
LANL
MAXGPoP
IARC
ARM
Abilene
ATL
SDSC
SNLA
NOAA AU GA
SRS
AMPATH
ALB
KCP-ALB
PANTEX
UNM
SoXGPoP
42 end user sites
DOE-ALB
AMPATH
(S. America)
Office Of Science Sponsored (22)
ELP
NNSA Sponsored (12)
International (high speed)
Lab Supplied
10 Gb/s SDN core
10G/s IP core
2.5 Gb/s IP core
MAN rings (≥ 10 G/s)
OC12 / GigEthernet
OC3 (155 Mb/s)
45 Mb/s and less
Joint Sponsored (4)
Other Sponsored (NSF LIGO, NOAA)
ESnet IP core: Packet over SONET Optical Ring and Hubs
Laboratory Sponsored (6)
commercial and R&E peering points IP
Abilene
SNV
ESnet core hubs
high-speed peering points with Internet2/Abilene

10. Network Utilization
ESnet Accepted Traffic (Bytes) Jan, 1990 to Dec., ESnet is Currently Transporting About 750 Terabytes/mo. and this volume is increasing exponentially
TBytes/Month

11. ESnet traffic has increased by about 10X every 46 months, on average,
Network Utilization
ESnet traffic has increased by about 10X every 46 months, on average,
since 1990
Dec., 2001
Jul., 1998
42 months
TBytes/Month
Oct., 1993
57 months
Aug., 1990
39 months

12. OSCARS: Guaranteed Bandwidth VC Service For SC Science
ESnet On-demand Secured Circuits and Advanced Reservation System (OSCARS)
To ensure compatibility, the design and implementation is done in collaboration with the other major science R&E networks and end sites
Internet2: Bandwidth Reservation for User Work (BRUW)
Development of common code base
GEANT: Bandwidth on Demand (GN2-JRA3), Performance and Allocated Capacity for End-users (SA3-PACE) and Advance Multi-domain Provisioning System (AMPS)
Extends to NRENs
BNL: TeraPaths - A QoS Enabled Collaborative Data Sharing Infrastructure for Peta- scale Computing Research
GA: Network Quality of Service for Magnetic Fusion Research
SLAC: Internet End-to-end Performance Monitoring (IEPM)
USN: Experimental Ultra-Scale Network Testbed for Large-Scale Science
In its current phase this effort is being funded as a research project by the Office of Science, Mathematical, Information, and Computational Sciences (MICS) Network R&D Program
A prototype service has been deployed as a proof of concept
To date more then 20 accounts have been created for beta users, collaborators, and developers
More then 100 reservation requests have been processed

13. Measurements of this kind are science-agnostic
Observation
In 4 years, we can expect a 10x increase in traffic over current levels without the addition of production LHC traffic
Nominal average load on busiest backbone links is ~1.5Gbps today
In 4 years that figure will be ~15Gbps if current trends continue
Measurements of this kind are science-agnostic
It doesn’t matter who the users are, the traffic load on the backbone is increasing
Bandwidth trends drive requirement for a new network architecture

14. Metropolitan Area Rings
ESnet Target Architecture: IP Core+Science Data Network Core+Metro Area Rings
Europe
(GEANT)
Canada
(CANARIE)
CERN
Asia-Pacific
Canada
(CANARIE)
CERN
Europe
(GEANT)
Seattle
SDN Core
Australia
Chicago
New York
Denver
IP Core
Sunnyvale
Washington, DC
Metropolitan Area Rings
Atlanta
Loop off Backbone
On this diagram you can see how all the components come together.
You can see how the MANs tie the two backbone rings together
How the most international peering points are connected to both backbones via the MANs LA
Aus.
Albuquerque
South America
(AMPATH)
San Diego
IP core hubs
10-50 Gb/s circuits
Production IP core
Science Data Network core
Metropolitan Area Networks
International connections
SDN hubs
South America
(AMPATH)
Primary DOE Labs
possible hubs