Rajan Rao, Abinder Dhillon, Iftekhar Hussain, Marco Sosa, Biao Lu

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

Flexible Grid Label Format in Wavelength Switched Optical Network

Information model for G.709 Optical Transport Network (OTN) draft-bccg-ccamp-otn-g709-info-model-03 CCAMP WG, IETF 79 th Beijing.

Page th IETF – Anaheim, California, March 2010 Signaling Extensions for Wavelength Switched Optical Networks draft-bernstein-ccamp-wson-signaling-06.txt.

OSPF-TE extensions for GMPLS Control of Evolutive G.709 OTN

Requirement and protocol for WSON and non-WSON interoperability CCAMP WG, IETF 81th, Quebec City, Canada draft-shimazaki-ccamp-wson-interoperability-00.

OSPF-TE extensions for GMPLS Control of Evolving G.709 OTN draft-ietf-ccamp-gmpls-ospf-g709v3-00 CCAMP WG, IETF 82 nd Taipei.

GMPLS Signaling Extensions for G.709-v3 (draft-khuzema-ccamp-gmpls-signaling-g txt ) Rajan Rao ( Khuzema Pithewan.

1 Framework for GMPLS based control of Flexi-grid DWDM networks draft-ogrcetal-ccamp-flexi-grid-fwk-00 CCAMP WG, IETF 84 Oscar González de Dios, Telefónica.

Page th IETF – Vancouver, December 2007 Framework for GMPLS and PCE Control of Wavelength Switched Optical Networks (WSON) & RWA Information for.

82 nd IETF – Taipei, Taiwan, November 2011 GMPLS OSPF Enhancement for Signal and Network Element Compatibility for Wavelength Switched Optical Networks.

WSON General WG Drafts 1.Routing and Wavelength Assignment Information Model for WSON (v14) 2.General Network Element Constraint Encoding for GMPLS Controlled.

WSON Specific WG Drafts 1.Routing and Wavelength Assignment Information Encoding for Wavelength Switched Optical Networks (v14) 2.GMPLS OSPF Enhancement.

Ethernet TSPEC and MEF Parameters draft-ietf-mef-ethernet-traffic-parameters-01.txt

Signaling & Routing Extension for Links with Variable Discrete Bandwidth draft-long-ccamp-rsvp-te-availability-03 draft-long-ccamp-ospf-availability-extension-02.

OSPF-TE extensions for OTN (draft-ashok-ccamp-gmpls-ospf-g709-03) CCAMP IETF-80 (Mar-2011) Rajan Rao Ashok Kunjidhapatham.

Information model for G.709 Optical Transport Network (OTN) draft-bccg-ccamp-otn-g709-info-model-01 CCAMP WG, IETF 78 th Maastricht.

WSON Routing WG Drafts 1.Routing and Wavelength Assignment Information Model for WSON 2.General Network Element Constraint Encoding for GMPLS Controlled.

OSPF-TE extensions for GMPLS Control of Evolving G.709 OTN draft-ietf-ccamp-gmpls-ospf-g709v3-03 CCAMP WG, IETF 84 th Vancouver.

WSON Routing WG Drafts 1.Routing and Wavelength Assignment Information Model for WSON 2.General Network Element Constraint Encoding for GMPLS Controlled.

OSPF-TE extensions for GMPLS Control of Evolving G.709 OTN draft-ceccarelli-ccamp-gmpls-ospf-g CCAMP WG, IETF 79 th Beijing.

OSPF-TE extensions for GMPLS Control of Evolving G.709 OTN draft-ceccarelli-ccamp-gmpls-ospf-g CCAMP WG, IETF 81 th Quebec City.

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.

OSPF-TE Extensions for WSON-specific Network Element Constraints draft-peloso-ccamp-wson-ospf-oeo-02 Giovanni Martinelli, Julien Meuric, Pierre Peloso.

1 Multi Topology Routing for OSPFv3 (draft-mirtorabi-mt-ospfv3-00.txt) Sina Mirtorabi

Page th IETF – San Francisco, CA, March 2009 A Framework for the Control and Measurement of Wavelength Switched Optical Networks (WSON) with Impairments.

Generalized Label for Super-Channel Assignment on Flexible Grid Iftekhar Hussain Abinder Dhillon

OSPF-TE Extensions for Flex-grid Abinder Dhillon Iftekhar Hussain

OSPF Extensions for ASON Routing draft-ietf-ccamp-gmpls-ason-routing-ospf-02.txt IETF67 - San Diego - Nov’06 Dimitri Papadimitriou (Alcatel)

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

Multiple Metrics for Traffic Engineering with IS-IS and OSPF draft-fedyk-isis-ospf-te-metrics-00.txt Don Fedyk, Nortel Networks Anoop Ghanwani, Nortel.

Page 1 RSVP-TE based evidence signaling protocol Zafar Ali, Roberto Cassata (Cisco Systems) Marco Anisetti, Valerio Bellandi, Ernesto Damiani, Francesco.

WSON Summary Young Lee Document Relationships Information Gen-constraints Encode WSON Encode Signal Compatibility OSPF Gen-constraints.

Framework for G.709 Optical Transport Network (OTN) draft-ietf-ccamp-gmpls-g709-framework-05 CCAMP WG, IETF 82 nd Taipei.

Generalized Label for Super-Channel Assignment on Flexible Grid draft-hussain-ccamp-super-channel-label-03 IETF 83 - Paris, France March , 2012.

June 4, 2003Carleton University & EIONGMPLS - 1 GMPLS Generalized Multiprotocol Label Switching Vijay Mahendran Sumita Ponnuchamy Christy Gnanapragasam.

1 Ping and Traceroute for GMPLS LSPs in Non-Packet Switched Networks draft-ali-ccamp-gmpls-lsp-ping-traceroute-01.txt Zafar Ali, Roberto Cassata (Cisco.

1 BGP Traffic Engineering Attribute draft-fedyk-bgp-te-attribute-03.txt Yakov Rekhter, Don Fedyk, Hamid Ould-Brahim IETF 70 th, Vancouver Meeting, CCAMP,

79th IETF – Beijing, November 2010 OSPF Enhancement for Signal and Network Element Compatibility for Wavelength Switched Optical Networks Young

67th IETF meeting, Nov Traffic Engineering Database Management Information Base in support of GMPLS Traffic Engineering Database Management Information.

70th IETF Vancouver, December 2007 CCAMP Working Group Status Chairs: Deborah Brungard : Adrian Farrel :

66th IETF, Montreal, July 2006 PCE Working Group Meeting IETF-66, July 2006, Montreal A Backward Recursive PCE-based Computation (BRPC) procedure to compute.

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,

1 73th IETF, CCAMP WG, Minneapolis, MN, USA November 2008 RSVP-TE based Impairments Collection Mechanism Zafar Ali, Roberto Cassata (Cisco Systems) Marco.

63rd IETF Paris August 2005 CCAMP Working Group Online Agenda and Slides at:

Multi layer implications in GMPLS controlled networks draft-bcg-ccamp-gmpls-ml-implications-05 D.Papadimitriou (Alcatel-Lucent) D.Ceccarelli (Ericsson)

OIF Liaison on Routing IETF 75 – Stockholm – Jul ‘09 L. Ong (Ciena)

66th IETF meeting, July 2006 Extensions to the OSPF Management Information Base in support of GMPLS Extensions to the OSPF Management Information Base.

1 73th IETF, CCAMP WG, Minneapolis, MN, USA November 2008 A Framework for defining Optical Parameters to be used in WSON Networks draft-martinelli-ccamp-opt-imp-fwk-00.txt.

Technology agnostic OSPF-TE extensions for GMPLS draft-bccgd-ccamp-gmpls-opsf-agnostic-00 CCAMP WG, IETF 79 th Beijing.

Draft-psenak-ospf-segment-routing-ospf-extension-03 draft-psenak-ospf-segment-routing-ospfv3-extension-00 IETF 88, November 3-8, 2013 P. Psenak, S.Previdi,

GMPLS extensions to communicate latency as a Traffic Engineering performance metric draft-wang-ccamp-latency-te-metric-03.txt draft-wang-ccamp-latency-te-metric-03.txt.

GMPLS extensions to communicate latency as a Traffic Engineering performance metric draft-wang-ccamp-latency-te-metric-00.txt draft-wang-ccamp-latency-te-metric-00.txt.

OSPF-TE Extensions for MLN/MRN based on OTN draft-rao-ccamp-mlnmrn-otn-ospfte-ext-03 Rajan Rao Khuzema Pithewan

PCEP extensions for GMPLS CCAMP WG, IETF 79th, Beijing, China draft-ietf-pce-gmpls-pcep-extensions-01 Cyril Margaria Nokia Siemens Networks Oscar González.

SNMP MIBs to manage G parameters

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.

ASON routing implementation and testing ASON routing extensions

OSPF Link Information Model for WSON

OSPF Enhancement for Signal and Network Element Compatibility for Wavelength Switched Optical Networks

WF on UE mandatory channel bandwidth for NR bands

Guard Bands requirements for GMPLS controlled optical networks

OSPF Extensions for ASON Routing draft-ietf-ccamp-gmpls-ason-routing-ospf-03.txt IETF67 - Prague - Mar’07 Dimitri.

Iftekhar Hussain (Presenter),

Generalized Routing ISCD Switching Capability Specific Information draft-ceccarelli-teas-gneralized-scsi-00 Daniele Ceccarelli

draft-ggalimbe-ccamp-flexigrid-carrier-label-02

TGah Coexistence Assurance

ISIS Extensions for FlexE Link Advertisement

TAPI Photonic Media Model

Presentation transcript:

Rajan Rao, Abinder Dhillon, Iftekhar Hussain, Marco Sosa, Biao Lu OSPF-TE Extensions for Flex-grid draft-dhillon-ccamp-super-channel-ospfte-ext-02 IETF 83 - Paris, France March 25 - 31, 2012 Rajan Rao, Abinder Dhillon, Iftekhar Hussain, Marco Sosa, Biao Lu

Agenda Changes since IETF-82 Open Issues Next Steps

Changes Ver-02 submitted in Nov’11 Slight modifications to BW sub-TLV Re-arranged few fields Reduced size of priority field from 8-bit to 3-bit Added descriptions for various fields Added examples Modifications to go with new TLV format

Proposal - recap Simple extensions to ISCD [RFC 4202] New Switching Capability Flex-Grid extensions in SCSI Flex-Grid extensions summary Divide C-band in to ‘Slices’ of certain width Advertise ‘Slice’ availability Support for BW advertisement per priority Support for Min & Max ‘Frequency Slot’ use per LSP draft-dhillon-ccamp-super-channel-ospfte-ext-01.txt

Proposal: ISCD/SCSI formats Switching Capability = Super Channel Switching Capable SCSI to contain one or more BW-sub-TLVs (Type=1 or Type=2) draft-dhillon-ccamp-super-channel-ospfte-ext-02.txt

Proposal: BW-sub-TLV(s) Sub-TLV for Bit-map option Sub-TLV for List or Range option draft-dhillon-ccamp-super-channel-ospfte-ext-02.txt

Open issues Terminology clarifications Framework document submitted with definitions & use cases WG agreement on Control Plane requirements Alignment with ITU docs on data plane aspects Maximum LSP BW encoding in ISCD Two options being looked at:- Encode based on Max Slot width & Modulation or Set to zero.

Next Steps Discuss Framework, Requirements, Use cases, Merge options with other contributions

Backup

Slicing the C-band Spectrum N-Start identifies start of usable spectrum supported by the node advertising slices Slice Spacing is Single Slice granularity (e.g. 12.5GHz) The usable spectrum is divided in to n-slices & slice availability is advertised in BW-sub-TLV Slice Numbering anchored @ N-Start draft-dhillon-ccamp-super-channel-ospfte-ext-01.txt

Super-Channel Optical Parameters GMPLS Routing Extensions draft-hussain-ccamp-super-channel-param-ospfte-00.txt IETF 83 - Paris, France March 25 - 31, 2012 Iftekhar Hussain (ihussain@infinera.com) Abinder Dhillon(adhillon@infinera.com) Marco Sosa (msosa@infinera.com)

draft-hussain-ccamp-super-channel-param-ospfte-00 Agenda Motivation Extensions Summary TLV Summary Use Case Open Issues Next Steps draft-hussain-ccamp-super-channel-param-ospfte-00

draft-hussain-ccamp-super-channel-param-ospfte-00 Motivation Coexistence of super-channels using different modulation formats Adjacent super-channels may affect each other detrimentally It is desirable to evaluate the mutual impact of the existing and new super-channels on each other's quality of transmission draft-hussain-ccamp-super-channel-param-ospfte-00 13

draft-hussain-ccamp-super-channel-param-ospfte-00 Extensions Summary This draft defines GMPLS routing extensions to advertise the super-channel parameters (defined in the draft-hussain-ccamp-super-channel-param-sig) via OSPF-TE link LSA using a new Super-Channel sub-TLV draft-hussain-ccamp-super-channel-param-ospfte-00 14

draft-hussain-ccamp-super-channel-param-ospfte-00 TLVs Summary This draft defines following TLVs A Super-Channel TLV Super-Channel In-Use Slices sub-TLV Super-Channel Carriers sub-TLV (see draft-hussain-ccamp-super-channel-param-sig) The Super-Channel sub-TLV is Advertised in the OSPF-TE link LSA under the under the SCSI field of the ISCD using Super-Channel- Switch-Capable (SCSC) value (see draft-dhillon-ccamp-super-channel-ospfte-ext) draft-hussain-ccamp-super-channel-param-ospfte-00 15

Super-Channel TLV Format draft-hussain-ccamp-super-channel-param-ospfte-00 16

Super-Channel In-Use Slices sub-TLV Format draft-hussain-ccamp-super-channel-param-ospfte-00 17

draft-hussain-ccamp-super-channel-param-ospfte-00 Use Case The slice in-use information enables source nodes to apply added CSPF constraints to: Group super-channels with different modulation formats in different bands (slice ranges) Group super-channels with same bit-rate in a band while separating with guard band from super-channels with different bit-rate. Allows efficient network utilization by avoiding the worst-case OSNR penalty while preserving desired quality of transmission of the existing super-channels draft-hussain-ccamp-super-channel-param-ospfte-00 18

draft-hussain-ccamp-super-channel-param-ospfte-00 Open issues Terminology clarifications Framework document submitted with definitions & use cases WG agreement on Control Plane requirements Alignment with ITU docs on data plane aspects draft-hussain-ccamp-super-channel-param-ospfte-00

draft-hussain-ccamp-super-channel-param-ospfte-00 Next Steps Requesting for review and comments Discuss merge options with other contributions draft-hussain-ccamp-super-channel-param-ospfte-00