draft-ietf-tsvwg-sctp-failover-06.txt   draft-ietf-tsvwg-sctp-failover-07.txt 
Network Working Group Y. Nishida Network Working Group Y. Nishida
Internet-Draft GE Global Research Internet-Draft GE Global Research
Intended status: Experimental P. Natarajan Intended status: Standards Track P. Natarajan
Expires: April 26, 2015 Cisco Systems Expires: April 26, 2015 Cisco Systems
A. Caro A. Caro
BBN Technologies BBN Technologies
P. Amer P. Amer
University of Delaware University of Delaware
K. Nielsen K. Nielsen
Ericsson Ericsson
October 23, 2014 October 23, 2014
Quick Failover Algorithm in SCTP Quick Failover Algorithm in SCTP
draft-ietf-tsvwg-sctp-failover-06.txt draft-ietf-tsvwg-sctp-failover-07.txt
Abstract Abstract
One of the major advantages of SCTP is that it supports multi-homed One of the major advantages of SCTP is that it supports multi-homed
communication. A multi-homed SCTP end-point has the ability to communication. A multi-homed SCTP end-point has the ability to
withstand network failures by migrating the traffic from an inactive withstand network failures by migrating the traffic from an inactive
network to an active one. However, if the [RFC4960] specified network to an active one. However, if the [RFC4960] specified
failover operation is followed there can be a significant delay in failover operation is followed there can be a significant delay in
the migration to the active destination addresses, thus severely the migration to the active destination addresses, thus severely
reducing the effectiveness of SCTP multi-homed operation. reducing the effectiveness of SCTP multi-homed operation.
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