PCE in Native IP Network
draft-ietf-teas-pce-native-ip-00
Document Type Active Internet-Draft (teas WG)
Last updated 2018-02-15 (latest revision 2018-02-12)
Replaces draft-wang-teas-pce-native-ip
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TEAS Working Group                                               A.Wang
Internet Draft                                            China Telecom
                                                           Quintin Zhao
                                                         Boris Khasanov
                                                            HuaiMo Chen
                                                    Huawei Technologies
                                                             Penghui Mi
                                                        Tencent Company

Intended status: Experimental Track                   February 13, 2018
Expires: August 12, 2018

                         PCE in Native IP Network
                   draft-ietf-teas-pce-native-ip-00.txt

Status of this Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

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   This Internet-Draft will expire on August 12, 2018.

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Abstract

    This document defines the framework for CCDR traffic engineering
    within Native IP network, using Dual/Multi-BGP session strategy and
    PCE-based central control architecture.

<A.Wang>                Expires August 12, 2018                 [Page 1]
Internet-Draft        PCE in Native IP Network        February 13, 2018
    The proposed central mode control framework conforms to the concept
    that defined in RFC " An Architecture for Use of PCE and the PCE
    Communication Protocol (PCEP) in a Network with Central Control".

    The scenario and simulation results of CCDR traffic engineering is
    described in draft "CCDR Scenario, Simulation and Suggestion".

Table of Contents

   1. Introduction ................................................. 2
   2. Dual-BGP framework for simple topology. ...................... 3
   3. Dual-BGP in large Scale Topology ............................. 4
   4. Multi-BGP for Extended Traffic Differentiation ............... 5
   5. CCDR based framework for Multi-BGP strategy deployment........ 6
   6. PCEP extension for key parameters delivery. .................. 7
   7. CCDR Deployment Consideration ................................ 7
   8. Security Considerations....................................... 8
   9. IANA Considerations .......................................... 8
   10. Conclusions ................................................. 8
   11. References .................................................. 9
      11.1. Normative References.................................... 9
      11.2. Informative References.................................. 9
   12. Acknowledgments ............................................ 10

1. Introduction

   Draft [I-D.draft-wang-teas-ccdr] describes the scenario and simulation 
   results for the CCDR traffic engineering. In summary, the requirements for   
   CCDR traffic engineering in Native IP network are the followings.
   1) No complex MPLS signaling procedure.
   2) End to End traffic assurance, determined QoS behavior.
   3) Identical deployment method for intra- and inter- domain.
   4) No influence to existing router forward behavior.
   5) Can utilize the power of centrally control(PCE) and
      flexibility/robustness of distributed control protocol.
   6) Coping with the differentiation requirements for large amount
      traffic and prefixes.
   7) Flexible deployment and automation control.

   This document defines the framework for CCDR traffic engineering
   within Native IP network, using Dual/Multi-BGP session strategy and
   CCDR architecture, to meet the above requirements in dynamical and
   central control mode. Future PCEP protocol extensions to transfer the
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