Optical Data Networking: “IP over X” Antonio Rodríguez Moral* & Paul Bonenfant Lucent Technologies – Broadband Networks Group Globecom’99.

Slides:

Advertisements

Similar presentations

TRAINING SERVICES NIGTEL-CS TRAINING SERVICE Mobile Telecommunications in Africa especially Nigeria has recorded rapid growth and expansion in the.

Advertisements

Multi-service Architecture: Evolution of Network Architecture Keith Knightson Khalid Ahmad Carrier Data Networks Nortel Networks, Canada IP-Networking/Mediacom.

Data over Transport with ASON Session 12 – Optical Network Clients and Services Presented by: Stephen Shew Date:

Identifying MPLS Applications

A Possible New Dawn for the Future GÉANT Network Architecture

0 0 0 BBWF Madrid October 2005 Access-independent Core Networks: Converging towards all-IP Andy Jones Head of Transmission & Interconnectivity Vodafone.

© 2014 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 1 High-performance Gigabit Ethernet ports rapidly transfer large files supporting.

ONE PLANET ONE NETWORK A MILLION POSSIBILITIES Barry Joseph Director, Offer and Product Management.

UMA (Unlicensed Mobile Access) El Ayoubi Ahmed Hjiaj Karim.

The Optical Transport Network (OTN) – G.709

Wavelength Routed Networks Wavelength Assignment Wavelength Conversion Cost Implications Network Modeling.

Optical communications & networking - an Overview

Packet Optimized Optical Transport Solutions A Practical Design and Implementation Approach Marc Teichtahl

An evolutionary approach to G-MPLS ensuring a smooth migration of legacy networks Ben Martens Alcatel USA.

 Copyright 2005 Digital Enterprise Research Institute. All rights reserved. Semantic Web Services in the environment of Next Generation Network.

5: DataLink Layer5-1 Asynchronous Transfer Mode: ATM r 1990’s/00 standard for high-speed (155Mbps to 622 Mbps and higher) Broadband Integrated Service.

1 Why Carriers Like Pseudowires… Payload (IP, L2 data, voice) PseudoWires Layer-2 (Ethernet, ATM…) Physical (Optical, Wireless) User Applications Payload.

Lappeenranta University of Technology Valery Naumov Telecommunications Laboratory Tel: “Why Do We Need WDM Networks?”

Fiber-Optic Communications

® IP over ???? ® GLOBECOM ‘99 December 6, ® Globecom ‘99 December 6, 1999OutlineOutline Concentrate on the network core Deficiencies with traditional.

IEEE Globecom ‘ /12/06 IP over Optics IEEE Globecom ‘99 - Panel Session Jeff Fitchett December 6, 1999.

Corporate Research Center - page 1 IP over ATM t IP over everything,..., PoS, PoATM, Ethernet, … t IP will be transported over whatever L1/L2 technology.

EE 4272Spring, 2003 Chapter 11. ATM and Frame Relay Overview of ATM Protocol Architecture ATM Logical Connections ATM Cells ATM Service Categories ATM.

Colombo, Sri Lanka, 7-10 April 2009 Multimedia Service Delivery on Next Generation Networks Pradeep De Almeida, Group Chief Technology Officer Dialog Telekom.

The Optical Communications Market

1 Introduction to Optical Networks. 2 Telecommunications Network Architecture.

6. Next Generation Networks A. Transition to NGN B

C OLUMBIA U NIVERSITY Lightwave Research Laboratory Embedding Real-Time Substrate Measurements for Cross-Layer Communications Caroline Lai, Franz Fidler,

Workshop IP/Optical; Chitose, Japan; 9-11 July 2002 OTN Equipment and Deployment in Today’s Transport Networks Session 5 Dr. Ghani AbbasQ9/15 Rapporteur.

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

Lighting up the metro backbone to enable advanced services

10/09/2015 NGN related Standardization Issues (Architecture and Protocol) Chae-Sub, LEE TTA 1GSC-9, Seoul SOURCE:TTA TITLE:NGN for Global Generation (Architecture.

United Telecommunication Services Michael Gaari Manager Network Provisioning UTS

1 Reliable high-speed Ethernet and data services delivery Per B. Hansen ADVA Optical Networking February 14, 2005.

National Institute of Science & Technology Voice Over Digital Subscriber Line (VoDSL) Vinay TibrewalEE [1] VoDSL: Next Generation Voice Solution.

TERENA Networking Conference 2004, Rhodes, Greece, June Differentiated Optical Services and Optical SLAs Afrodite Sevasti Greek Research and.

Valentino Cavalli Workshop, Bad Nauheim, June Ways and means of seeing the light Technical opportunities and problems of optical networking.

Lecture Note on Dense Wave Division Multiplexing (DWDM)

Integrated Services Digital Network (ISDN)

Fiber-Optic Network Architectures. OSI & Layer Model This Course.

Chapter 1. Introduction. By Sanghyun Ahn, Deot. Of Computer Science and Statistics, University of Seoul A Brief Networking History §Internet – started.

Optical Networks Division 1 Role of Dynamic Optical Networks in Transitioning to IP Centric Architectures Emanuel Nachum Vice President, Marketing ECI.

Metro/regional optical network architectures for Internet applications Per B. Hansen, Dir. Bus. Dev. Internet2’s Spring Member Meeting May 3, 2005.

Intorduction to Lumentis

Bridging the West to East April 2010 Dumitru VLAD, GM Commercial Affairs Data Division.

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

Department of Energy Office of Science ESCC & Internet2 Joint Techs Workshop Madison, Wisconsin.July 16-20, 2006 Network Virtualization & Hybridization.

1 Optical Packet Switching Techniques Walter Picco MS Thesis Defense December 2001 Fabio Neri, Marco Ajmone Marsan Telecommunication Networks Group

Prentice HallHigh Performance TCP/IP Networking, Hassan-Jain Chapter 8 TCP/IP Performance over Optical Networks.

1 Dynamic Service Provisioning in Converged Network Infrastructure Muckai Girish Atoga Systems.

1 “ ” Multiservice networking is emerging as a strategically important issue for enterprise and public service provider infrastructures alike.The proposition.

1 © 2003, Cisco Systems, Inc. All rights reserved. CISCO CONFIDENTIAL Advancing the Carrier IP/MPLS Edge Routing Technology Group Cisco Systems, Inc. April.

Impact of Photonic Integration on Optical Services Serge Melle VP Technical Marketing, Infinera.

1 Why Optical Layer Protection? Optical layer provides lightpath services to its client layers (e.g., SONET, IP, ATM) Protection mechanisms exist in the.

Challenges in the Next Generation Internet Xin Yuan Department of Computer Science Florida State University

Prentice HallHigh Performance TCP/IP Networking, Hassan-Jain TCP/IP Performance over Optical Networks.

IPFC Working Group IETF Adelaide, Australia March 29, 2000 FC Over IP draft-ietf-ipfc-fcoverip-00.txt E. Rodriguez, Lucent Technologies M. Rajagopal, R.

Slide 1, hlu & faynberg Trends in Network Evolution Igor Faynberg, Ph.D. Hui-Lan Lu, Ph.D. Bell Labs, Lucent Technologies Multimedia Convergence Workshop.

RESILIENT PACKET RING NETWORK(RPR).  The nature of the public network has changed. Demand for Internet Protocol(IP)data is growing at a compound annual.

Zagreb Optical Packet Switching the technology and its potential role in future communication networks Results from.

Multiprotocol Label Switching (MPLS) Routing algorithms provide support for performance goals – Distributed and dynamic React to congestion Load balance.

An evolutionary approach to G-MPLS ensuring a smooth migration of legacy networks Ben Martens Alcatel USA.

Dynamic Lightpaths in R&E Networks

Welcome Network Virtualization & Hybridization Thomas Ndousse

Dynamic Lightpaths in R&E Networks

BASIC OVERVIEW OF AN ALL OPTICAL INTERNET

Beyond 10G Hong Liu February 14, 2005.

Alcatel Confidential and Proprietary

Optical communications & networking - an Overview

Presentation transcript:

Optical Data Networking: “IP over X” Antonio Rodríguez Moral* & Paul Bonenfant Lucent Technologies – Broadband Networks Group Globecom’99 5 – 9 December 1999 Rio de Janeiro, Brazil

Antonio Rodríguez Moral & Paul Bonenfant Globecom’99 Page 2 “IP over WDM” Demystified Implementation Reality SDH-Based WDM Terminal SDH-Based WDM Terminal IP over SDH STM-16c IP over SDH STM-16c Multiple SDH STM-16 Wavelengths “Optical Internetworking”? —Really is SDH Internetworking —Implies single evolution for data transport —“Networking”: Service layer networking through SDH/WDM pipes —SDH dependency limits technological innovation (e.g., Packet over Fiber, GbE and 10xGbE over DWDM evolution) —Not taking advantage of networking capability at the Optical layer A STEP AWAY from the original vision of Optical Networking...

Antonio Rodríguez Moral & Paul Bonenfant Globecom’99 Page 3 Enter “Digital Wrappers” Optical Channel (Wavelength) Digital Wrapper Wavelength Digital Wrappers are a step toward the original vision of Optical Networking Digital Wrappers enable “virtual transparency” —Releases the Optical Network from SONET/SDH dependency —Allows for end-to-end Optical Transport Networking solutions OCh OAM OCh Payload FEC Data SONET/SDHFDDIATMPDHGbE, 10xGbESDL IP

Antonio Rodríguez Moral & Paul Bonenfant Globecom’99 Page 4 What is “IP over WDM”? Take Your Pick... What is “IP over DWDM” (really)? In an increasingly competitive world, Service Providers have to differentiate themselves. Optical Data Networking solutions should be able to accommodate each Service Provider’s unique data networking vision... IP PPP/HDLC SONET/SDH IP ATM SONET/SDH WDM IP ATM WDM IP SONET/SDH WDM IP Standard ATM Mapping POS Mapping ATM Vision Robust Packet over SONET Robust Packet over Fiber IP 1/10xGbE MAC GbE Vision PHY WDM 1/10xGbE PHY SDL PHY SDL WDM

Antonio Rodríguez Moral & Paul Bonenfant Globecom’99 Page 5 Does a “Total Solution” Exist ?? A total solution for what problem? And is it really ONE single solution, or a set of solutions? The problem: Optical Data Networks: optical networks that are optimized for data traffic (let’s say IP traffic) and applications Four dimensions pop up already: —what network segment? —what optimization? —what IP traffic? —what user and network applications? And some other dimensions must be considered: —Greenfield vs. Incumbent —IP-only vs. Multi-service platform So, the problem is a multi- dimensional problem, with at least 6 dimensions to consider. A quick, common sense statement: THERE EXISTS NO SINGLE SOLUTION THAT OPTIMIZES THE PROBLEM UNDER ALL POSSIBLE VARIABLES...

Antonio Rodríguez Moral & Paul Bonenfant Globecom’99 Page 6...to a Multi-Dimensional Problem! Enterprise Access Metro/Regional Core Network Segment Evolution End Application Hard QoS Soft QoS Best Effort Voice+Video VPN Web browsing Flows Packets Circuits Traffic Mix

Antonio Rodríguez Moral & Paul Bonenfant Globecom’99 Page 7 Optical Internetworking vs. Optical Data Networking Optical Internetworking is today’s “IP over WDM”: —“Optical”: Optical layer provides point-to-point transport (DWDM) —“Internetworking”: IP layer provides networking Optical/Data Networking is a more powerful networking solution: —Networking at both the transport (optical) and service (data) layers —Optical networking supports: ä Diversity in data networking protocols and architectures ä Flexibility and robustness via wavelength (Optical Channel) routing, protection, and restoration —Essential for open, giga/tera-bit, carrier-class Optical Data Networks optimized for network segments/applications ä Allows tailored solutions specific to each network segment, and to each Service Provider

Antonio Rodríguez Moral & Paul Bonenfant Globecom’99 Page 8 Views of the “Total Solution(s)” Optical Data Networking Gaining Multi-Vendor Compliance —Standards, Standards, Standards... Survivability Schemes —Service Layer / Transport Layer will both apply, and continue to co-exist Integrating Legacy and Optical Networks —Revolutionary technologies (DWDM, OAs, Digital Wrappers) have enabled an evolution in networking (Optical Networking) Optical Network Deployment (let’s be honest...) —Optical Networking solutions will be deployed where economical to the Service Provider —Optical Networking solutions must meet price targets of existing/alternative technologies, or offer solutions to problems for which there is no alternative Management Systems to Guarantee QoS —“Single-seat” distributed operations platforms, or bust The Future is about a Network of Networks – Some Common Sense (worth repeating): —THERE EXISTS NO SINGLE SOLUTION...