Área: Lorem ipsum Razón Social: Telefónica CAON Standardization Activities Telefónica I+D Juan Fernandez-Palacios Telefonica I+D. CAON co-chair.

Slides:

Advertisements

Similar presentations

CCAMP WG, IETF 80th, Prague, Czech Republic draft-gonzalezdedios-subwavelength-framework-00 Framework for GMPLS and path computation support of sub-wavelength.

Advertisements

ITU-T/OIF Report IETF 76 – Hiroshima – Nov09 L. Ong (Ciena) Thanks to Malcolm Betts & Kam Lam for ITU- T slides.

A Framework for Management and Control of Optical Interfaces supporting G draft-kunze-g management-control-framework-00 Ruediger Kunze Manuel.

CURRENT APPROACH FOR NETWORK PROVISIONING Umbrella Provisioning System

G : DCM Signaling Mechanism Using GMPLS RSVP-TE ITU-T Workshop on IP-Optical, Chitose, Japan 7/11/2002 Dimitrios Pendarakis, Tellium, Inc. ITU-T.

Application-Based Network Operations (ABNO) IETF 88 – SDN RG

NEW OUTLOOK ON MULTI-DOMAIN AND MULTI-LAYER TRAFFIC ENGINEERING Adrian Farrel

© 2010 MAINS Consortium MAINS (Metro Architectures enablINg Subwavelengths) Mark Basham(WPL, INT) George Zervas(UESSEX) MAINS 2 nd EC Technical Review.

A Possible New Dawn for the Future GÉANT Network Architecture

O LD D OG C ONSULTING Optical Networking and Converged Networks Impact and Trends in Standardisation Adrian Farrel

An Architecture for Application-Based Network Operations Adrian Farrel - Old Dog Consulting Daniel King –

N Group0/1: Yangfei WANG z Amrita Manayil z Thangappan Madavan V K z Peng Fu z Shuo Sun z Total Slides :19 In-Operation.

Área: Lorem ipsum Razón Social: Telefónica Nomadic Virtual PC: A user Case for Network and Distributed Cloud Interworking Telefónica I+D.

© 2010 MAINS Consortium MAINS (Metro Architectures enablINg Subwavelegths) WP1: Network and service requirements, industrial application and standardization.

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

Área: Lorem ipsum Razón Social: Telefónica Standardization Activities Telefónica I+D Juan Fernandez-Palacios Telefonica I+D. CAON co-chair.

Next Challenges in Optical Networking Research: Contribution from the CaON cluster Dimitra Simeonidou: Sergi Figuerola:

OLD DOG CONSULTING Traffic Engineering or Network Engineering? The transition to dynamic management of multi-layer networks Adrian Farrel Old Dog Consulting.

DWDM-RAM: DARPA-Sponsored Research for Data Intensive Service-on-Demand Advanced Optical Networks DWDM RAM DWDM RAM BUSINESS WITHOUT BOUNDARIES.

Cooperating Layered Architecture for SDN (CLAS) Luis M. Contreras Telefónica Carlos J. Bernardos Universidad Carlos III de Madrid (UC3M) Diego R. López.

A Policy-Based Optical VPN Management Architecture.

Abstraction and Control of Transport Networks (ACTN) BoF

Omniran IEEE 802 Scope of OmniRAN Date: Authors: NameAffiliationPhone Max RiegelNSN

ITU-T Study Group 13 Communications to IETF CCAMP Working Group Marco Carugi ITU-T SG13 Liaison Officer to IETF CCAMP

Evolution of Path Computation Towards Generalized Resource Computation Adrian Farrel Old Dog Consulting

IETF68 CCAMP1 GMPLS Control of Ethernet Forwarding Don Fedyk Loa Andersson

A Framework for Management and Control of Optical Interfaces supporting G draft-kunze-g management-control-framework-02 March rd IETF.

Page th IETF – Dublin, Ireland, July 2008 Framework for GMPLS and PCE Control of Wavelength Switched Optical Networks (WSON) Greg

Lucent Technologies – Proprietary Use pursuant to company instruction 1 3GPP2 Workshop MMD IMS Architecture June 28, 2005 Anne Y. Lee IMS Systems Engineering.

1 | Infinera Copyright 2013 © Intelligent Transport Network Manuel Morales Technical Director Infinera.

Standardisation Activities on Felxigrid – ECOC 2013 – London, September Standardisation Activities on Flexigrid Adrian Farrel - Old Dog Consulting.

Next Steps in Path Computation Element (PCE) Architectures: From Software Defined Concepts to Standards, Interoperability and Deployment CSA FP7 ICT Call.

1 | Infinera Copyright 2013 © Infinera's Photonic Integrated Circuits (PICs) Intelligent Transport Network By Dr. Abdul Hyee.

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

Framework for Black Link Management and Control draft-kunze-black-link-management-framework-00 Ruediger KunzeDeutsche Telekom March th IETF Prague1.

Software-defined architectures for convergent fixed-radio access Carlos Bock, Jordi Ferrer, Volker Jungnickel, David Levi, Victor Marques, Tiago Mendes,

IST Project LION 2 Outline IST-project LION –Layers Interworking in Optical Networks –Overview – objectives –Testbed Progress: 2 examples –Recovery experiments.

1 Using Multi-Layer Routing to Provision Services across MPLS/GMPLS Domain Boundaries Andrew G. Malis Chief Technologist, Tellabs Chairman and President,

1 Framework for GMPLS based control of Flexi-grid DWDM networks draft-ogrcetal-ccamp-flexi-grid-fwk-02 CCAMP WG, IETF 86 Oscar González de Dios, Telefónica.

Page rd IETF – Minneapolis, MN, November 2008 A Framework for the Control and Measurement of Wavelength Switched Optical Networks (WSON) with Impairments.

Page th IETF – Philadelphia, March 2008 Signaling Extensions for Wavelength Switched Optical Networks Greg

The OIF: A Beacon for Industry Progress and Convergence.

OIF NNI: The Roadmap to Non- Disruptive Control Plane Interoperability Dimitrios Pendarakis

A PRESENTATION “SEMINAR REPORT” ON “ GENERALIZED MULTIPROTOCOL LABEL SWITCHING“

Plennary Meeting 11th October 2012, Brussels

Lucy Yong Young Lee IETF CCAMP WG GMPLS Extension for Reservation and Time based Bandwidth Service.

Five Essential Elements for Future Regional Optical Networks Harold Snow Sr. Systems Architect, CTO Group.

Application-oriented Stateful PCE Architecture and Use-cases for Transport Networks Young Lee, Xian Zhang, Haomian Zhang, Dhruv Dhody (Huawei), Guoying.

Page th IETF – Vancouver, December 2007 Signaling Extensions for Wavelength Switched Optical Networks Greg

MPLS-TP INTER-OP: WHAT, WHY, AND HOW? General Objectives for MPLS-TP Inter-Op Test Program at UNH-IOL.

1 | © 2015 Infinera Open SDN in Metro P-OTS Networks Sten Nordell CTO Metro Business Group

Limit for content Do not exceed Limit for content Do not exceed Limit for content Do not exceed Limit for content Do not exceed Page 1 © The.

1 Framework for GMPLS based control of Flexi-grid DWDM networks draft-ogrcetal-ccamp-flexi-grid-fwk-02 CCAMP WG meeting, IETF 87 Oscar González de Dios,

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

Framework for DWDM interface Management and Control draft-kdkgall-ccamp-dwdm-if-mng-ctrl-fwk-01 Ruediger KunzeDeutsche Telekom Gabriele Galimberti Cisco.

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

Multi-layer software defined networking in GÉANT

Grid Optical Burst Switched Networks

Greg Bernstein Young Lee

Framework for GMPLS based control of Flexi-grid DWDM networks draft-ogrcetal-ccamp-flexi-grid-fwk-01 CCAMP WG, IETF 85 Oscar González de Dios, Telefónica.

FlexE - Channel Control Work in the IETF

Applicability of GMPLS and PCE to Wavelength Switched Optical Networks

73rd IETF – Minneapolis, MN, November 2008

FlexE - Channel Control Work in the IETF

Guard Bands requirements for GMPLS controlled optical networks

YANG data model for Flexi-Grid Optical Networks

Y. Lee, D. Dhody, X. Zhang, A. Guo (Huawei)

YANG data model for Flexi-Grid Optical Networks

TAPI Photonic Media Model

TAPI Photonic Media Model

Presentation transcript:

Área: Lorem ipsum Razón Social: Telefónica CAON Standardization Activities Telefónica I+D Juan Fernandez-Palacios Telefonica I+D. CAON co-chair

Área: Lorem ipsum Razón Social: Telefónica  FSAN: Optical access standardization (i.e NGPON2)  IETF: Control plane standardization Key standardization fora

Área: Lorem ipsum Razón Social: Telefónica FSAN Task Force  CAON contributions at FSAN are being centralized by Thomas Pfeiffer (ALU)  Key issues  OFDM based NGPON2 solutions are still in an early stage for standardization  Still, in terms of expected total system costs it cannot compete with conventional TDM/WDM-based PON solutions taking into account the current state of component technologies  A solid recommendation to FSAN to choose OFDM technology for NGPON2 solutions can not be done yet

Área: Lorem ipsum Razón Social: Telefónica IETF Standardization Task Force TechnologiesIntra-carrierInter-carrier Single DomainMultidomain Packet Switching (IP, MPLS-TP, etc) Wavelength Switching Sub-wavelength Switching IT and network integration (Cross Stratum) MAINS (CCAMP, PCE, MPLS-TP OAM) GEYSERS (CSO)c STRONGEST (PCE, MPLS-TP OAM) ONE, CHRON ETICS (PCE, CCAMP, PCN, CDNI, …), Lots of potential sinergies and collaboration activities within IETF GEYSERS

Área: Lorem ipsum Razón Social: Telefónica Innovation challenges in core networks Photonic Transport Transmission ROADM Cost efficient high speed transmission up to 1 Tbps- Flexible Grid. Pure optical subwavelength switching. Multilayer coordination Resource optimization through multilayer planning. OPEX savings from coordinated planes. Resource optimization through multilayer planning. OPEX savings from coordinated planes. IP Network Separated provisioning and OAM in different segments (IP & Aggregation). End- to-end MPLS solutions to lower OPEX IP/MPLS core MAN Fiber link Photonic Control Plane Multi-vendor interoperability Algorithms for Efficient use of available resources Multi-vendor interoperability Algorithms for Efficient use of available resources E2EMPLS – gluing segments to simplify operation and provisioning Multilayer Coordination to optimize resources 100 Gbps+ Variable rate transponder Photonic Control Plane GMPLS + PCE Allowing cost efficient Multivendor network Cost Efficient Photonic Transport Network End to End MPLS network Flexible Grid

Área: Lorem ipsum Razón Social: Telefónica Multilayer Interworking  Current core networks are based on several layers.  Mid-term scenario: IP/MPLS network over reconfigurable wavelength switched optical network (WSON).  Three key elements to help in the management and coordination of such multi-layer architectures: User to Network Interface (UNI) Path Computation Element (PCE) Virtual Network Topology Manager (VNTM).  UNI standard method to allow resource request between layers acting as server and client  PCE aim is to calculate the route between endpoints, especially in complex scenarios  VNTM is in charge of maintaining the topology of the upper layer by connections in the lower layer.

Área: Lorem ipsum Razón Social: Telefónica Multi-Domain Interworking: H-PCE

Área: Lorem ipsum Razón Social: Telefónica Flexgrid Control Plane ITU-T SG-15 is extending the standard G to include the concept of flexible grid › Goal: allow an efficient and flexible allocation and configuration of optical spectral bandwidth for high bit-rate systems. Currenlty ITU-T is extending the architecture of the optical transport networks (G.782) to add the flexi-grid layer (also referred to as the media layer) as the server layer of the optical channels. IETF is starting to look at the definition of the GMPLS based control of the flexible grid networks › Several frameworks and solutions from different companies were presented › In the 84th IETF meeting in Vancouver, the Framework for GMPLS based control of Flexi-grid DWDM networks joining for the first time all the efforts of the industry, led by FP7 STRONGEST partners (Telefonica and CTTC), draft- ogrcetal-ccamp-flexi-grid-fwk-00 was presented. › All the control plane extensions (signalling, routing, path computation) need to be done… still a lot of work ahead…

Área: Lorem ipsum Razón Social: Telefónica ITU-T Terminology for Sub-Lambda Photonically Switched Network (SLPSN)  SLPSN definition: SLPSN is a switching technology which handles, at the data plane level and in a photonic way, temporal slices of individual or multiple wavelengths. SLPSN incorporates the optical time domain in addition to the wavelength/frequency and space domains.  SLPSU definition: a sub-lambda photonic switching unit (SLPSU) is an optically sliced unit of a wavelength in time domain, such as an optical time slot, an optical burst, or an optical packet.

Área: Lorem ipsum Razón Social: Telefónica IT&Optical Network Convergence work in [1]  A GEYSERS-inspired functional architecture L. Contreras, A. Tovar, G. Landi, N. Ciulli, “Architecture for Service Provisioning with Cross Stratum Optimization”, Internet-Draft, work in progress, draft-contreras-cso-functional-architecture-00, October 2011  Path Computation Element requirements for CSO A. Tovar, L. Contreras, G. Landi, N. Ciulli, “Path Computation Requirements for Cross-Stratum-Optimization”, Internet-Draft, work in progress, draft- tovar-cso-path-computation-requirements-00, October 2011  An architecture for CSO enabled Path Computation D. Dhody, Y. Lee, N. Ciulli, L. Contreras, O. Gonzalez de Dios, “Cross Stratum Optimization enabled Path Computation”, Internet-Draft, work in progress, draft-dhody-pce-cso-enabled-path-computation-01, March 2012

Área: Lorem ipsum Razón Social: Telefónica Conclusions  NGPON2 OFDM is not mature enough for standardization  Multilayer coordination The current standards need to be extended to suggest new configurations (e.g. new TE-Links) to the VNTM. UNI is currently being extended Multilayer PCE, VNTM and UNI can cooperate together.  Multidomain optical networks Hierarchical PCE is a good candidate to enable multi-domain interworking.  Subwavelegths Commom termionolgy is being standardized at ITU-T GMPLS extensions to be proposed at IETF  Flexgrid ITU is standardizing the date plane Frawework has just started in IETF… GMPLS/PCE extensions to be done.  IT and Optical network Convergence First steps taken at IETF