Ptp Boundary Clock For Frequency And Time - Nokia 7210 Configuration Manual

7210 SAS-M, T, R6, R12, Mxp, Sx, S Basic System
Configuration Guide

6.5.9 PTP Boundary Clock for Frequency and Time

Although IEEE 1588v2 can function across a packet network that is not PTP-aware,
performance may be unsatisfactory and unpredictable. PDV across the packet
network varies with the number of hops, link speeds, utilization rates, and the
inherent behavior of routers. By using routers with boundary clock functionality in the
path between the grandmaster clock and the slave clock, one long path over many
hops is split into multiple shorter segments, allowing better PDV control and
improved slave performance. This allows PTP to function as a valid timing option in
more network deployments and allows for better scalability and increased
robustness in certain topologies, such as rings.
Boundary clocks can simultaneously function as a PTP slave of an upstream
grandmaster (ordinary clock) or boundary clock, and as a PTP master of downstream
slaves (ordinary clock) and boundary clocks. The time scale recovered in the slave
side of the boundary clock is used by the master side of the boundary clock. This
allows time distribution across the boundary clock.
Figure 31
grandmaster clock and the slave clock.
Figure 31
3HE 17358 AAAB TQZZA
shows routers with boundary clock functionality in the path between
Boundary Clock
PTP
Boundary
Clock
1588v2
Grand
Master
1588v2
Grand Packet
Master Network
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Use subject to Terms available at: www.nokia.com
PTP
Boundary
Clock
PTP
Boundary
Clock
System Management
PTP Slave
PTP Slave
PTP Slave
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