Framework for Black Link Management and Control draft-kunze-black-link-management-framework-00 Ruediger KunzeDeutsche Telekom March 2011 80th IETF Prague1.

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

Page th IETF – Stockholm, Sweden, July 2009 WSON Signal Characteristics and Network Element Compatibility Constraints for GMPLS Greg
A Framework for Management and Control of Optical Interfaces supporting G draft-kunze-g management-control-framework-00 Ruediger Kunze Manuel.
1 Introducing the Specifications of the Metro Ethernet Forum.
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.
A Possible New Dawn for the Future GÉANT Network Architecture
LMP G parameters draft-dharinigert-ccamp-g lmp-09.txt Gabriele Galimberti Cisco Systems Zafar Ali Cisco Systems Ruediger KunzeDeutsche Telekom.
Jaehoon (Paul) Jeong, Hyoungshick Kim, and Jung-Soo Park
Page th IETF – Orlando, FL, March 2013 Information Model for Impaired Optical Path Validation Greg BernsteinGrotto Networking Young Lee Huawei Xian.
Dense Wavelength Division Multiplexing Theory. What we will cover WDM Overview Optical Fiber Transmission Characteristics Key technologies of DWDM Technical.
Extension to the Link Management Protocol (LMP/DWDM - rfc4209) for Dense Wavelength Division Multiplexing (DWDM) Optical Line Systems draft-dharinigert-ccamp-g lmp-05.txt.
Abstraction and Control of Transport Networks (ACTN) BoF
1 Introducing the Specifications of the Metro Ethernet Forum.
A Framework for Management and Control of Optical Interfaces supporting G draft-kunze-g management-control-framework-02 March rd IETF.
Performance Monitoring in Photonic Networks John Drake Chromisys.
TERENA Networking Conference 2004, Rhodes, Greece, June Differentiated Optical Services and Optical SLAs Afrodite Sevasti Greek Research and.
Page 2 Small confidentiality text on every page, Arial 10pt, white – Change on MASTER PAGE ONLY Understanding DWDM.
Valentino Cavalli Workshop, Bad Nauheim, June Ways and means of seeing the light Technical opportunities and problems of optical networking.
OPTICALINTERNETWORKINGFORUM OIF Technical Committee and Its Activities Joe Berthold, Ciena, Technical Committee Chair.
DOCUMENT #: GSC15-GTSC8-06 FOR: Presentation SOURCE: ATIS AGENDA ITEM: GTSC8; 4.2 CONTACT(S): Art Reilly ATIS Cybersecurity.
SNMP MIBs to manage G parameters for Dense Wavelength Division Multiplexing (DWDM) Optical Line Systems draft-galikunze-ccamp-g snmp-mib-06.txt.
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
OIF NNI: The Roadmap to Non- Disruptive Control Plane Interoperability Dimitrios Pendarakis
Page th IETF – San Francisco, CA, March 2009 A Framework for the Control and Measurement of Wavelength Switched Optical Networks (WSON) with Impairments.
Models to manage G parameters 1.draft-galikunze-ccamp-g snmp-mib-09.txt 2.draft-dharinigert-ccamp-g lmp-08.txt 3.draft-dharini-netmod-g yang-01.txt.
Models to manage G parameters draft-galikunze-ccamp-g snmp-mib-11.txt Gabriele Galimberti Cisco Systems Ruediger KunzeDeutsche Telekom Lam,
1 MPLS: Progress in the IETF Yakov Rekhter
Signaling Extensions for Wavelength Switched Optical Networks draft-bernstein-ccamp-wson-signaling-02.txt Greg BernsteinGrotto Networking Young LeeHuawei.
Page th IETF – Vancouver, December 2007 Signaling Extensions for Wavelength Switched Optical Networks Greg
Extension to the Link Management Protocol (LMP/DWDM - rfc4209) for Dense Wavelength Division Multiplexing (DWDM) Optical Line Systems draft-dharinigert-ccamp-g lmp-02.txt.
Base Specification for Multicast in BGP/MPLS VPNs draft-raggarwa-l3vpn-2547-mvpn-00.txt Rahul Aggarwal Juniper Networks.
July 2014Rüdiger Geib draft-geib-tsvwg-diffserv-intercon IETF 90, Toronto Presented by: David Black Private discussions David Black, Fred Baker and Ruediger.
2015/12/261 Lambda Labels Lambda Labels draft-otani-ccamp-gmpls-lambda-labels-01 Tomohiro Otani (KDDI R&D Labs) Hongxiang Guo (KDDI R&D Labs) Keiji Miyazaki.
Models to manage G parameters draft-dharini-netmod-g yang-03.txt Gabriele Galimberti Cisco Systems Ruediger KunzeDeutsche Telekom Lam, Hing-Kam.
Page th IETF – Chicago, July 2007 Applicability of GMPLS and PCE to Wavelength Switched Optical Networks Greg
SNMP MIBs to manage G parameters draft-galikunze-ccamp-g snmp-mib-00.txt Former draft-galimbe-kunze-g snmp-mib-02.txt Gabriele Galimberti.
Extension to the Link Management Protocol (LMP/DWDM - rfc4209) for Dense Wavelength Division Multiplexing (DWDM) Optical Line Systems draft-dharinigert-ccamp-g lmp-07.txt.
SNMP MIBs to manage Black Links networks draft-galimbe-kunze-black-link-mib-00.txt Gabriele Galimberti Cisco Ruediger KunzeDeutsche Telekom March 2011.
1 Header Compression over IPsec (HCoIPsec) Emre Ertekin, Christos Christou, Rohan Jasani {
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,
Dynamic Module Standards Rob Johnson Standards Engineering Manager 11th July 2002 Rob Johnson Standards Engineering Manager 11th July 2002.
Survivability in IP-over-WDM Networks. Introduction Multilayer network architecture is moving into IP-optimized two-layer architecture. ․ They have same.
A YANG model to manage the optical optical parameters for in a WDM network draft-galimbe-ccamp-iv-yang-00 Ruediger KunzeDeutsche Telekom Gabriele Galimberti.
Framework for DWDM interface Management and Control draft-kdkgall-ccamp-dwdm-if-mng-ctrl-fwk-01 Ruediger KunzeDeutsche Telekom Gabriele Galimberti Cisco.
Bjarke Skjoldstrup Project Manager, TDC A/S, Denmark
Network Administration and Systems Services. Dark fiber ring.
Flow OAM Requirements Janardhanan Pathangi Balaji Venkat Venkataswami DELL Richard Groves – Microsoft Peter Hoose – Facebook
CCAMP Working Group Online Agenda and Slides at: Data tracker:
Models to manage DWDM interface parameters draft-galikunze-ccamp-dwdm-if-snmp-mib-00.txt Gabriele Galimberti Cisco Systems Ruediger KunzeDeutsche Telekom.
Problem Statement Controlling pre-standard coherent Optical Interfaces
Draft-mpls-tp-OAM-maintnance-points-00
SNMP MIBs to manage G parameters
draft-dharinigert-ccamp-g lmp-10
A Framework for the Control and Measurement of Wavelength Switched Optical Networks (WSON) with Impairments
SNMP MIBs to manage G parameters
Applicability of GMPLS and PCE to Wavelength Switched Optical Networks
IETF 78th Maastricht, Netherlands, July 2010
73rd IETF – Minneapolis, MN, November 2008
ATIS Cybersecurity DOCUMENT #: GSC13-GTSC6-12 FOR: Presentation
draft-dharini-ccamp-dwdm-if-param-yang-00
Presented by Fabio Bigi Workshop Coordinator
draft-dharinigert-ccamp-dwdm-if-lmp-06
Framework for DWDM interface Management and Control
Framework for DWDM interface Management and Control
YANG data model for Flexi-Grid Optical Networks
Synchronous Optical Network (SONET)
draft-dharinigert-ccamp-dwdm-if-lmp-07
YANG data model for Flexi-Grid Optical Networks
draft-ggalimbe-ccamp-flex-if-lmp-07
Presentation transcript:

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

BL Introduction Black Link: The Black Link approach [ITU-T G.698.2] allows supporting an optical transmitter/receiver pair of one or different vendors to inject a DWDM channel and run it over an optical network composed of amplifiers, filters, add-drop multiplexers from a different vendor. Therefore the standard defines the ingress and egress parameters at the interface Ss and Rs.

Motivation Black Link (BL) as specified by ITU-T offers carriers an additional option to deploy optical interfaces in a WDM network – BL is currently defined for 2,5G and 10G and will be extended by ITU- T for 40G,100G and beyond The approach offers some benefits but has also some challenges regarding the operation of the network – Today it is state-of-the-art to interconnect IP Routers from different vendors and WDM transport systems using short-reach, grey interfaces – To ensure applicability as in state-of-the-art networks, the BL approach must support a multi-vendor environment – The traditional approach operating carrier networks today is based on a separation of transport and packet, means different departments with different tools operate and manage network and services. Initial requirements discussed on the draft – Interoperable BL solutions – Manageability based on the Status-Quo today

Document Scope Focus on solutions for management and control of the optical interfaces: – BL operation scenarios/ uses cases – Black Link Control and Management Solutions – Requirements for BL and FW deployments (could be further discussed in a separate document) WSON is complementary – Focusing on the management and control of the optical interface. – Dynamic Wavelength switching and assignment is out of scope

Solution initially in scope. EMS NMS IP EMS EMS – Element Management System NMS – Network Management System NMS OD

Key Requirements Interoperable BL solutions Specification of solutions ensuring an interoperable management of BL deployments for 10G, 40G and beyond. Must work with legacy equipment and management components.

Next Steps Requesting Working Group feedback Progressing work on Use Case section and on Requirements Extend solution section if there are further approaches … Feedback from other operators invited Corresponding MIB document available

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.