I think Christian made very important points.
I'd like to add one point that I'm sure will sound like a broken record to some
people. Mobile mobile mobile! There are more mobile devices today than IPv4
can handle, period. Everyone is using NATs to build their mobile networks. The
question
here is will NATs survive the types of services that operators want to provide?
From where I'm looking, the problems are profound and extremely difficult to
solve.
I think the reason this hasn't been more widely understood is that we're still
not close
to seeing those mobile peer to peer services over IP. But when that happens (no
speculation
from me here), I think operators will realise what they're in for. This is
especially true
for large operators.
So, there is more to this than simply looking at the remaining address space
and
the rates of allocation.
Hesham
-----Original Message-----
From: ietf-bounces(_at_)ietf(_dot_)org
[mailto:ietf-bounces(_at_)ietf(_dot_)org]On Behalf Of Christian Huitema
Sent: Saturday, November 06, 2004 5:06 PM
To: Bob Braden; harald(_at_)alvestrand(_dot_)no; gih(_at_)apnic(_dot_)net
Cc: v6ops(_at_)ops(_dot_)ietf(_dot_)org; ietf(_at_)ietf(_dot_)org
Subject: RE: IPv4 consumption statistics and extrapolations
Some 10 years ago, every IETF plenary meeting had a soothsayer session,
projecting how soon we would run out of IPv4 addresses. Has anyone
looked to see how today's data extrapolates from the predictions then?
Was it as "S" curve, after all??
There are two kinds of S curves, depending on what creates the asymptote. You
may have an S curve that flattens when everybody is served (e.g. everybody on
earth has a TV set), and another that flattens when the resource is exhausted
(e.g. the last cod has been fished). Whether the address allocation falls in
one or the other category will certainly be debated...
As for extrapolating IANA assignment of /8 addresses, it is an interesting
game. The data is available for everybody to look at
http://www.iana.org/assignments/ipv4-address-space. If you sort allocations by
date, you see three phases:
- an initial allocation phase that ends in May 1993 when addresses start to be
allocated by RIR using the CIDR policy. At the end of May 93, 94 prefixes are
allocated or otherwise reserved.
- a relatively slow growth from May 93 to April 04, during which 50 new
prefixes are allocated
- a recent spurt of activity causing 20 allocations between April and November
04.
Depending over which period you average, we can argue that the allocation rate
is:
- 6.8 per year between 1981 and 2004 (163 blocks divided by 24 years)
- 4.5 per year between May 1993 and April 2004 (50 blocks divided by 11)
- 6 per year between May 1993 and November 2003 (70 divided by 11.5)
- 34 per year lately (20 blocks over the course of 7 months)
I can assume that different soothsayers will pick different values, depending
on whether they want to tell us that the sky is falling, or on the contrary
that we should not worry.
Another point of debate is how many blocks are actually available. Right now,
163 are in use, out of a total of 256, so we may assume that 93 are available.
However, 16 of these blocks fall in the former "class E" category, and may or
may not be easy to use...
-- Christian Huitema
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