IEEE 1588v2 Clock Synchronization - PowerPoint PPT Presentation

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IEEE 1588v2 Clock Synchronization

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Title: IEEE 1588v2 Clock Synchronization over MPLS Networks Author: Lizhong Jin Keywords: IEEE 1588v2 Clock Synchronization over MPLS Networks Last modified by – PowerPoint PPT presentation

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Title: IEEE 1588v2 Clock Synchronization


1
IEEE 1588v2 Clock Synchronization P2MP LSP
with co-routed reverse path
  • Lizhong Jin (ZTE)
  • Frederic Jounay (France Telecom Orange)

2
Requirement Analysis
  • According to IEEE1588v2 (BC mode), the sync
    packet and delay request should follow the same
    path, with same transmission quality. The details
    are
  • The forward and backward path should be same
  • The QoS should be ensured for end-to-end packet
    transmission.
  • It is preferred to do bandwidth usage
    optimization for sync packet transmission.
  • MPLS network should provide all the above
    characteristics.

3
Current Problem
  • From the current deployment of IEEE 1588v2,
    because of the poor quality transmission provided
    by network, it was tested that about only 5 nodes
    are allowed between clock grandmaster and slave
    under the accepted accuracy of clock
    synchronization. (BC mode)

4
Deployment with P2MP LSP with co-routed reverse
path
Processing clock sync between master and slave 1
Before sending ltdelay requestgt, delay for some
time according slave_id
Processing clock sync between master and slave 2
Before sending ltdelay requestgt, delay for some
time according slave_id
Sync packet Delay Request
5
Solution Description
  • The P2MP LSP has co-routed reverse path, and QoS
    reservation for both forward path and reverse
    path.
  • Clock synchronization process
  • Grandmaster will send IEEE1588v2 Sync to all
    Slave nodes through P2MP LSP with co-routed
    reverse path.
  • When the slave node receive Sync packet, it is
    required to send delay request through P2MP LSP
    reverse path.
  • In order to avoid some packet process collision
    on reverse path, an optimized method is
    (optional)
  • When the slave node receive Sync packet, it is
    required to delay for sometime according to
    Slave_ID, then send delay request through P2MP
    LSP reverse path.
  • The purpose of this method is to minimize
    potential packet process collision on reverse
    path.

6
Solution Description (cont)
  • P2MP LSP will provide the following functions
  • Unidirectional point to multipoint connection
    from ingress LSR to all egress LSR
  • Reverse path from egress LSR to ingress LSR,
    which has the same path from ingress LSR to
    egress LSR.
  • Unidirectional point to multipoint LSP will
    provide Diff-serv TE.
  • Reverse path LSP will provide Diff-serv TE.
  • The QoS can only be guaranteed when only one of
    the egress LSR send packet through reverse path
    at one time.
  • IEEE1588v2 will provide the following functions
  • IEEE1588v2 will send same Sync packet to all
    slave node.
  • When Slave receive the Sync packet, it is
    required to delay for sometime according to
    Slave_ID, then send Delay Request through reverse
    path. This is necessary so as to avoid all the
    slave node sending Delay Request through
    reverse path at same time.

7
PROS CONS
  • PROS
  • The BW and EF resource is optimized by using P2MP
    connection.
  • The number of nodes that between Grandmaster and
    slave is increased, by virtue of MPLS high
    quality packet transmission.
  • More scalable.
  • CONS
  • If there is large number of nodes between
    Grandmaster and slave, the accuracy of clock
    synchronization will be poor. Hierarchy clock
    synchronization can be used to improve the
    accuracy.

8
Next steps
  • Add this requirements to draft-ietf-tictoc-require
    ments-00.

Thank you
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