1 CHEETAH Network Xuan Zheng & Malathi Veeraraghavan {xz3y, Sept. 11, 2006.

Slides:

Advertisements

Similar presentations

Services and Applications’ infrastructure for agile optical networks More questions than answers Tal Lavian.

Advertisements

2006 © SWITCH 1 TNC'06 Panel Presentation Myths about costs of circuit vs. packet switching Simon Leinen.

August 10, Circuit TCP (CTCP) Helali Bhuiyan

1 A Study of Applications for Optical Circuit-Switched Networks Xiuduan Fang May 1, 2006 Supported by NSF ITR , NSF EIN , and DOE DE-FG02-04ER25640.

End-to-End GMPLS Signaling in CHEETAH Project Xiangfei Zhu 5/5/2005 Master’s Project Presentation.

1 Experiences with setting up the CHEETAH network Xuan Zheng, Xiangfei Zhu, Malathi Veeraraghavan University of Virginia.

Carrier Class Ethernet Metro Ethernet Forum Technical documents under “Documents” tab.

Internetworking Introduction How Networks Differ How Networks Can Be Connected Concatenated Virtual Circuits Connectionless Internetworking Tunneling Fragmentation.

1 Proposed future direction for CHEETAH Outline What's our goal for the network: eScience network or large-scale GP network? Book-Ahead (BA) or Immediate-Request.

1 NSF CHEETAH project “End-To-End Provisioned Optical Network Testbed for Large-Scale eScience Applications” Xuan Zheng & Malathi Veeraraghavan Univ. of.

UCB Switches Jean Walrand U.C. Berkeley

© 2008 Cisco Systems, Inc. All rights reserved. 1 Layer 2 Extensions for Data Center Interconnect with Catalyst 6500 Belmont Chia Consulting System Engineer.

CUNY (NSF Planing Meeting, 11/12/03, Virginia) Circuit-switched High-speed End-to-End Transport arcHitecture (CHEETAH) Cisco MSPP Connection to primary.

What Is Network ?. A Network is a connected collection of devices and systems, such as computers and servers, which can communicate with each other.

Lighting The Fiber ‘The Road to an Operational RON’ j.p.streck (NC State/NCNI/NCLR) m.johnson (MCNC/NCNI/NCLR)

CRON: Cyber-infrastructure for Reconfigurable Optical Networks PI: Seung-Jong Park, co-PI: Rajgopal Kannan GRA: Cheng Cui, Lin Xue, Praveenkumar Kondikoppa,

DRAGON Supercomputing 2004 Presentation Plans October 6, 2004 National Science Foundation.

May 2001GRNET GRNET2 Designing The Optical Internet of Greece: A case study Magda Chatzaki Dimitrios K. Kalogeras Nassos Papakostas Stelios Sartzetakis.

1 Applications and Cheetah Outline eScience vs. commercial networks Three modes of bandwidth sharing large-m small-m, long-held calls small-m, short-duration.

OSCARS Overview Path Computation Topology Reachability Contraints Scheduling AAA Availability Provisioning Signalling Security Resiliency/Redundancy OSCARS.

Concept: Use CHEETAH network between web caches Internet CHEETAH Application Gateway (CAG) CHEETAH Application Gateway (CAG) Web client Web server Original.

HOPI Update Rick Summerhill Director Network Research, Architecture, and Technologies Jerry Sobieski MAX GigaPoP and TSC Program Manager Mark Johnson MCNC.

Copyright 2004 National LambdaRail, Inc Connecting to National LambdaRail 6/23/2004 Debbie Montano Director, Development & Operations

Data Plane Testing on USN, ESnet, and Internet2 Networks Tom Lehman (USC/ISI) Nasir Ghani (Tennessee Tech) Chin Guok (ESnet) Nagi Rao (ORNL) John Vollbrecht.

1 CHEETAH's use of DRAGON DRAGON software (current usage) RSVP-TE for an end-host client VLSR for a CVLSR to support immediate-request calls DRAGON network.

UVA work items  Provisioning across CHEETAH and UltraScience networks Transport protocol for dedicated circuits: Fixed-Rate Transport Protocol (FRTP)

Rick Summerhill Chief Technology Officer, Internet2 Internet2 Fall Member Meeting 9 October 2007 San Diego, CA The Dynamic Circuit.

HOPI: Making the Connection Chris Robb 23 June 2004 Broomfield, CO Quilt Meeting.

Routing in Optical Networks Markus Isomäki IP and MPLS in Optical Domain.

Multi-Level, Multi-Domain Hybrid Network Inter-Operation & Performance Tom Lehman (USC/ISI) Nasir Ghani (Tenn Tech) Chin Guok (ESnet) Nagi Rao (ORNL) John.

Hybrid MLN DOE Office of Science DRAGON Hybrid Network Control Plane Interoperation Between Internet2 and ESnet Tom Lehman Information Sciences Institute.

Delivering Circuit Services to Researchers: The HOPI Testbed Rick Summerhill Director, Network Research, Architecture, and Technologies, Internet2 Joint.

Copyright 2004 National LambdaRail, Inc N ational L ambda R ail Update 9/28/2004 Debbie Montano Director, Development & Operations

Techs in Paradise 2004, Honolulu / Lambda Networking BOF / Jan 27 NetherLight day-to-day experience APAN lambda networking BOF Erik Radius Manager Network.

1 End-host Route Selection in the CHEETAH Networking Solution Zhanxiang Huang 05/01/2006 Advisor: Malathi Veeraraghavan Master’s Project Presentation Acknowledgement:

17575_03_2003 © 2003, Cisco Systems, Inc. All rights reserved. Optical Networking: From Photons to Packets Rajiv Ramaswami VP/GM Optical Technology Group.

1 CHEETAH applications and control-plane testing on HOPI Outline (Dynamic circuit) Services and applications Demonstrations (Tao Li) CHEETAH software 

1 Applications for dynamically shared GMPLS networks Outline Quick summary of CHEETAH project "Business" orientation Technical details of CHEETAH Malathi.

1 Building a connection-oriented internet Outline –What are we doing? - cheetah –Research problems –Engineering problems –Why we are doing this? - vision/motivation.

1 CHEETAH – a high speed optical network Xiuduan Fang, Tao Li, Mark Eric McGinley, Xiangfei Zhu, and Malathi Veeraraghavan.

{“Next-Generation” Network} Measurement BoF Matt Zekauskas Vancouver Joint Techs 19-July-2005.

Dynamic Lightpath Services on the Internet2 Network Rick Summerhill Director, Network Research, Architecture, Technologies, Internet2 TERENA May.

1 CHEETAH Network Tao Li and Malathi Veeraraghavan {taoli, February 2008.

Objectives Blue Color VLAN’s Should reach Message Server from all locations Red Color VLAN’s Should not Reach Message Server In Each L2 Switch Blue Color.

Spring 2004 Member Meeting Vendor Tools e2e Tools BOF John H. Moore Technical Director NC-ITEC.

Technical aspects of designing of network UZSCINET V.Navotny.

1 Proposed future direction for CHEETAH Outline Strategy discussion: What's our goal for the CHEETAH network:  eScience network or a scalable GP network?

Internet2 Dynamic Circuit Services and Tools Andrew Lake, Internet2 July 15, 2007 JointTechs, Batavia, IL.

Enabling Supernova Computations on Dedicated Channels Malathi Veeraraghavan University of Virginia

1 Building a connection-oriented internet Outline Problem statement CHEETAH: an NSF-funded experimental project Research problems The “internet” name in.

1 CHEETAH - CHEETAH – Circuit Switched High-Speed End-to-End Transport ArcHitecture Xuan Zheng, Xiangfei Zhu, Xiuduan Fang, Anant Mudambi, Zhanxiang Huang.

Dynamic Network Services In Internet2 John Vollbrecht /Dec. 4, 2006 Fall Members Meeting.

INDIANAUNIVERSITYINDIANAUNIVERSITY HOPI: Hybrid Packet and Optical Infrastructure Chris Robb and Jim Williams Indiana University 7 July 2004 Cairns, AU.

1 Backbone Performance Comparison Jeff Boote, Internet2 Warren Matthews, Georgia Tech John Moore, MCNC.

Redundancy for High-Performance Connectivity Dan Magorian Director of Engineering and Operations Mid-Atlantic Crossroads Internet2 Member Meeting September.

1 Resource Optimization in Hybrid Core Networks with 100G Links Malathi Veeraraghavan University of Virginia [Collaboration with Admela Jukan] Date: Sep.

The Internet2 Network and LHC Rick Summerhill Director Network Research, Architecture, and Technologies Internet2 Given by Rich Carlson LHC Meeting 25.

Connecting to the new Internet2 Network What to Expect… Steve Cotter Rick Summerhill FMM 2006 / Chicago.

August 22, 2001 Traffic and Cost Model for RPR versus 1GbE and 10GbE Architectures A Carriers’ Carrier Perspective Stevan Plote Director of Technology.

HOPI Update Rick Summerhill Director Network Research, Architecture, and Technologies Internet2 Joint Techs 17 July 2006 University of Wisconsin, Madison,

The Internet2 Network and LHC Rick Summerhill Director Network Research, Architecture, and Technologies Internet2 LHC Meeting 23 October 2006 FERMI Lab,

Data Plane Testing on USN, ESnet, and Internet2 Networks

Dynamic Network Services In Internet2

PPPoE Internet Point to Point Protocol over Ethernet

End-host Initiated GMPLS Signaling Demo

Steps to set up end-to-end/partial-path circuits

Project overview Agenda Project goals How we plan to work together

End-to-End Provisioned Network Testbed for eScience

The HOPI Project Rick Summerhill

Detailed plan - UVA Dynamic circuit setup/release

Presentation transcript:

1 CHEETAH Network Xuan Zheng & Malathi Veeraraghavan {xz3y, Sept. 11, 2006

2 Raleigh PoP (MCNC) Control card GbE/ 10GbE card ORNL PoP Control card GbE/ 10GbE card SN16000 Control card OC192 card Via Nysernet/HOPI OC-192 GbE/ 10GbE card End hosts Atlanta PoP (SOX/SLR) SN16000 G. Tech End hosts ORNL OC192 card NCSU UVa CUNY OC192 card OC-192 (via NLR/SLR/NCREN) via NCREN Via Vortex/HOPI CHEETAH Network Overview

3 Orbitty Cluster 1G OC192 GbE MCNC Catalyst G G Wukong cheetah-nc 3x1G VLAN OC GbE GbE G Zelda H H H 1G Zelda Zelda G Zelda H H Zelda x1G MPLS tunnels 1G Cheetah-atl OC-192 lamda 10GbEGbE Cheetah-ornl OC192 X1(E)UCNS 1GFC 1G Juniper T320 Juniper T320 1G Force10 E300 switch ORNL PoP Atlanta PoP NCSU Direct fibers VLANs MPLS tunnels Wuneng H UVa Catalyst 4948 WASH HOPI Force10 WASH Abilene T640 NCSU M20 2x1G MPLS tunnels CUNY Foundry NYC HOPI Force10 1G Mvstu H H 1G UVa CUNY CHEETAH Network (data-plane) OC-192 lamda H Centuar FastIron FESX448 H Raleigh PoP cuny-h H 1G cuny-h

4 NC configuration – Data Plane Centuar FastIron FESX448 1G NCSU MCNC Orbitty Compute Nodes G OC192 GbE Direct fibers OC-192 to on cheetah-atl MCNC Catalyst G Wukong VLAN connections cheetah-nc 3x1G VLANs H Wuneng G H To mvstu6 10G To CUNY H H H 1G Viz Nodes H H H

5 CHEETAH NCSU VLAN Plan Cheetah VLAN setup - MCNC to Centaur VLAN ID Centaur FNNI-01 MCNC 6500 MCNC SN16000 Machine Name 40843/12Gig1/ Orbitty/Viz cluster/wu kong 40803/13Gig1/ /14Gig1/ /15Gig1/ mvstu /16Gig1/ CUNY

6 NC configuration – Control Plane NCSU MCNC Orbitty Compute Nodes Orbitty compute nodes OC192 GbE Wukong Ethernet port Interne t Control NS Interne t cheetah-nc OC-192 TE link to cheetah-atl Router ID=switch IP = Wuneng Gbps TE link 1Gbps TE link to CVLSR-1 1Gbps H 1Gbps TE link to mvstu6 H H H H

7 GbE Atlanta configuration – Data Plane OC GbE G Zelda H H H 1G Zelda Zelda Atlanta ORNL 1G MPLS tunnel 1 to on cheetah-ornl GaTech 1G Direct fibers To GaTech 2x1G MPLS tunnels cheetah-atl Juniper T320 1G MPLS tunnel 2 to on cheetah-ornl Juniper T320 OC-192 to on cheetah-nc OC-192 to on cheetah-ornl

8 OC GbE GbE Zelda H H H Zelda Zelda Atlanta configuration – Control Plane Control NS-5 Ethernet port x1Gbps Interne t OC-192 TE link to cheetah-nc cheetah-atl Router ID=switch IP= Gbps TE link to on cheetah-ornl 1Gbps TE link to on cheetah-ornl TE link OC-192 TE link to cheetah-ornl

9 ORNL configuration – Data Plane OC GbE GbE cheetah-ornl Force10 E300 1G Zelda H H 1G Zelda Juniper T320 1GbE MPLS tunnel 1 to on cheetah-atl 1GbE MPLS tunnel 2 to on cheetah-atl 1G UCNS 1G X1(E) 1G FC Direct fibers MPLS tunnels 0/50/20 VLAN connections OC-192 to on cheetah-atl

10 OC GbE GbE cheetah-ornl Router ID=switch IP = Control NS Interne t ORNL configuration – Control Plane Force10 E300 Zelda H H Zelda Juniper T320 1Gbps 1Gbps TE link to on cheetah-atl 1Gbps TE link to on cheetah-atl TE link OC-192 TE link to cheetah-atl

11 UVa/CUNY configuration – Data Plane UVa Catalyst 4948 WASH HOPI Force10 47/48 1G H UVa Catalyst 6509 Mclean Catalyst G 2x1G MPLS tunnels Direct fibers MPLS tunnels MCNC Catalyst G 10G 1G VLAN connections UVa 1G VLAN (4082) NY HOPI Force10 CUNY Foundry CVLSR-1 1G CUNY 1G VLAN (4083) WASH Abilene T640 15/16 17/18 19/20 21/22 23/24 mvstu … OC192 GbE OC-192 to on cheetah-atl cheetah-nc NCSU M20 Centuar FastIron FESX448 H H 1G cuny-h cuny-h G 10G 1G 10G Check the next two pages for more details about UVa/CUNY-MCNC connections

12 WASH-MCNC Connections

13 CUNY-WASH Connection Hunter 695 Park Av BMCC 199 Chambers St Grad Ctr th Ave Baruch 55 Lex 32 Ave of A 14.4Km 9.16Km 26.85Km 4.22Km 5.42Km 5.0Km 3.94Km 4.92Km Physical Fiber Ring RING 1 RING 2 CIS1 555 West 57 th St Internet Mi 1.62Mi CIS Dual Homed Apps Blackboard etc. OC-3 L2/L3 1 GE (24 STSs) Backup for Data Center 2 RPR Rings for Internet 1 & 2 CCNY Convent Ave & 138 th St RING 2 SONET OC-48 5 RPR Rings for the 5 Colleges RING 1 DWDM Blue - Physical Fiber Ring with SONET overlay Other Colors - Logical Resilient Packet Rings CIS2 555 West 57 th St RSVP Apps RSVP Apps GE CUNY th Ave Internet 1 OC-3 GE Ckt Path: Ring 1: GE/SONET/ DWDM Cross-connected between CIS1 & CIS2 at West 57 th St., at Layer 2 Ring2: SONET/GE College Network

14 UVa-Dragon-MCNC VLAN Plan Cheetah VLAN setup – UVa – Mclean Cisco 4948 port (UVa Small Hall) VLAN ID 15/ / / / / / / / / / / / / / / / / Ports 1-14 are level-3 interfaces and are connected to Abilene IPs: Gateway: Netmask:

15 UVa/CUNY configuration – Control Plane MCNC OC192 GbE Ethernet port Interne t Control NS cheetah-nc Router ID=switch IP = TE link H mvstu H H cuny-h cuny-h Interne t CVLSR-1 Router ID=switch IP = NS ControlGbE 1Gbps To Dragon VLSR UVaCUNY

16