Dynamic Flooding on Dense Graphs
draft-ietf-lsr-dynamic-flooding-18
Approval announcement
Draft of message to be sent after approval:
Announcement
From: The IESG <iesg-secretary@ietf.org>
To: IETF-Announce <ietf-announce@ietf.org>
Cc: Acee Lindem <acee@cisco.com>, The IESG <iesg@ietf.org>, acee.ietf@gmail.com, draft-ietf-lsr-dynamic-flooding@ietf.org, jgs@juniper.net, lsr-chairs@ietf.org, lsr@ietf.org, rfc-editor@rfc-editor.org
Subject: Document Action: 'Dynamic Flooding on Dense Graphs' to Experimental RFC (draft-ietf-lsr-dynamic-flooding-18.txt)
The IESG has approved the following document:
- 'Dynamic Flooding on Dense Graphs'
(draft-ietf-lsr-dynamic-flooding-18.txt) as Experimental RFC
This document is the product of the Link State Routing Working Group.
The IESG contact persons are Gunter Van de Velde, Jim Guichard and John
Scudder.
A URL of this Internet-Draft is:
https://datatracker.ietf.org/doc/draft-ietf-lsr-dynamic-flooding/
Ballot Text
Technical Summary
Routing with link state protocols in dense network topologies can
result in sub-optimal convergence times due to the overhead
associated with flooding. This can be addressed by decreasing the
flooding topology so that it is less dense.
This document discusses the problem in some depth and an
architectural solution. Specific protocol changes for IS-IS, OSPFv2,
and OSPFv3 are described in this document.
Working Group Summary
Per the shepherd writeup, "Initially, there was a controversy
with respect to distributed vs centralized computation of the
flooding topology. The draft evolved to support either model."
Document Quality
Per the shepherd writeup, "There is one existing implementation.
It is not reported formally due to a change in affiliation of
the primary author."
Personnel
The Document Shepherd for this document is Acee Lindem. The Responsible
Area Director is John Scudder.
RFC Editor Note