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-rw-r--r--content/en/blog/20210402-multicast.md6
1 files changed, 3 insertions, 3 deletions
diff --git a/content/en/blog/20210402-multicast.md b/content/en/blog/20210402-multicast.md
index 38a71ee..cc868a2 100644
--- a/content/en/blog/20210402-multicast.md
+++ b/content/en/blog/20210402-multicast.md
@@ -395,8 +395,8 @@ are acquired such as read/write access. Both types of layers go
through this phase. A unicast layer, may, in addition, periodically
disseminate information that enables _FORWARDING_. We call this
dissemination function _ROUTING_, but if you know a better word that
-avoids confusion, we'll take it. _ROUTING_ is distinct from adjancy
-management, in the sense that adjancy management is administrative,
+avoids confusion, we'll take it. _ROUTING_ is distinct from adjacency
+management, in the sense that adjacency management is administrative,
and tells the networks which links it is allowed to use, which links
_exist_. _ROUTING- will make use of these links and make decisions
when they are unavailable, for instance due to failures.
@@ -457,7 +457,7 @@ Here's the solution to MPLS: it is a set of broadcast layers! The
labels are a distributed way of identifying the layer _by its links_,
instead of a single identifier for the whole layer, like a VLAN or a
multicast IP address. RSVP / LDP (and their traffic engineering -TE
-cousins) are protocols that do enrolment and adjancy management.
+cousins) are protocols that do enrolment and adjacency management.
I hope this gave you a bit of an insight into the Ouroboros view of
the world. Course materials on computer networks consist of a