Title :
Multi-path Time Protocols
Author :
Shpiner, Alexander ; Revah, Yoram ; Mizrahi, Tal
Author_Institution :
Marvell Israel, Technion - Israel Inst. of Technol., Haifa, Israel
Abstract :
Over the last few years, packet based networks have become the common transport for applications requiring clock synchronization. Classical time distribution protocols are run between a master clock and a slave clock using a single network path between the two clocks. A recently introduced approach called Slave Diversity uses multiple paths between a master-slave pair to reduce the effect of temporal congestion or errors in a specific path. The current paper applies the multi-path approach to the most widely-used packet based time protocols, PTP and NTP. We introduce extensions to the PTP and NTP standards called Multi-Path PTP (MPPTP) and Multi-Path NTP (MPNTP), respectively, and describe their application over various transport protocols. Our experimental evaluation shows that a large number of paths can be utilized when running the multi-path protocols over the internet, and thus that our multi-path approach can be effectively deployed over existing IP networks.
Keywords :
IP networks; Internet; clocks; synchronisation; transport protocols; IP networks; Internet; NTP standards; PTP standards; clock synchronization; master clock; master-slave pair; multipath NTP; multipath approach; multipath time protocols; packet based networks; packet based time protocols; slave clock; slave diversity; temporal congestion effect; time distribution protocols; transport protocols; Clocks; IP networks; Network topology; Protocols; Servers; Synchronization; Unicast; IEEE 1588; NTP; PTP; clock synchronization; multiple paths; slave diversity; time protocol;
Conference_Titel :
Precision Clock Synchronization for Measurement Control and Communication (ISPCS), 2013 International IEEE Symposium on
Conference_Location :
Lemgo
Print_ISBN :
978-1-4799-0241-5
DOI :
10.1109/ISPCS.2013.6644754
