Posted by
ryuzaki0
on from the ip-address-in-every-pot dept.
miladus writes "According to a story at Zdnet,
Asian countries are running out of IP addresses. China, for example,
was assigned 22 million IP addresses (for a population of 1.3 billion)
under IPv4. The US owns 70 percent of current IP addresses. Perhaps IPv6 will solve the problem."
Asia is one of the primary adopters of IPv6
by
illumin8
·
· Score: 5, Interesting
I work for one of the largest Unix vendors out there (hint, we used to put the . in.bomb).
Anyway, I can tell you that in one of my many Unix classes when we were learning how to configure IPv6 the instructor mentioned that the reason why IPv6 had been added by default to our new versions of Unix was that we were getting a tremendous amount of pressure from our customers overseas, primarily in Asian markets, who were unable to get IPv4 address blocks from their ISPs, and were therefore deploying IPv6 exclusively.
I believe currently a lot of Asia is running IPv6 with IPv4 gateways at main NAPs.
-obdisclaimer, the opinions expressed are not those of my employer.
-- "When the president does it, that means it's not illegal." - Richard M. Nixon
30% of ipv4 space still unallocated
by
ruud
·
· Score: 5, Interesting
Re:Crazy size of the IPv6 address space...
by
spaceyhackerlady
·
· Score: 5, Interesting
There are about six billion people on earth and each person's body consists of about 100 trillion cells. With 128 bit addressing each individual cell
in every human being could have 100 trillion addresses. I believe that is on par with 1 address per molecule.
A necessary number: number of IPV6 addresses
is 2**128 = 3.4E38.
Hmmm...lessee now, 6E9 people, 1E14 cells per person, that makes 6E23 cells. That's about 5E14 IPV6 addresses (five hundred trillion) per cell.
Per molecule? Let's assume an average person's mass is 60 kg, and that the average molecular weight of the human body is 25 (we are mostly water). That makes (60 * 1000) / 25 * 6.02E23 = 1.4E27 molecules per person.
Total Earth population is then 6E9 * 1.4E27 = 8.4E36 molecules. Actually about 40 addresses per molecule.
My other favourite number is how many IPV6 addresses each
square micron of the Earth's surface could have:
Earth's surface area in square microns =
4 pi (6378 * 1000 * 1000000) ** 2 = 5.1E26
3.4E38 / 5.1E26 = 6.6E11
A big number!
...laura
Re:"Perhaps" IPV6 will solve the problem?
by
hesiod
·
· Score: 5, Interesting
> How soon, who knows...but saying that it won't happen is like saying no one will ever need more then 640k of memory..
Considering the scale of this issue, it seems more like a homo erectus saying "No one need fire. Too hot and not portable, like Linux." Well, except for the Linux thing.
But seriously, I think the planet itself would be long gone before that many IP addresses was even close to being used. Until, of course, nanobots start self-replicating and join the Internet Continuum & start taking IPs (those dirty bastards).
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I work for one of the largest Unix vendors out there (hint, we used to put the . in .bomb).
Anyway, I can tell you that in one of my many Unix classes when we were learning how to configure IPv6 the instructor mentioned that the reason why IPv6 had been added by default to our new versions of Unix was that we were getting a tremendous amount of pressure from our customers overseas, primarily in Asian markets, who were unable to get IPv4 address blocks from their ISPs, and were therefore deploying IPv6 exclusively.
I believe currently a lot of Asia is running IPv6 with IPv4 gateways at main NAPs.
-obdisclaimer, the opinions expressed are not those of my employer.
"When the president does it, that means it's not illegal." - Richard M. Nixon
roughly 30 percent of the available ipv4 space has not been allocated to anyone yet. every now and then, iana allocates a /8 block to apnic. so even if apnic is running out of space in the currently assigned addresses, there is still quite a lot of space available that could be allocated to them.
bgphints - internet routing news, hints and ti
A necessary number: number of IPV6 addresses is 2**128 = 3.4E38.
Hmmm...lessee now, 6E9 people, 1E14 cells per person, that makes 6E23 cells. That's about 5E14 IPV6 addresses (five hundred trillion) per cell.
Per molecule? Let's assume an average person's mass is 60 kg, and that the average molecular weight of the human body is 25 (we are mostly water). That makes (60 * 1000) / 25 * 6.02E23 = 1.4E27 molecules per person. Total Earth population is then 6E9 * 1.4E27 = 8.4E36 molecules. Actually about 40 addresses per molecule.
My other favourite number is how many IPV6 addresses each square micron of the Earth's surface could have:
Earth's surface area in square microns = 4 pi (6378 * 1000 * 1000000) ** 2 = 5.1E26
3.4E38 / 5.1E26 = 6.6E11
A big number!
...laura
> How soon, who knows...but saying that it won't happen is like saying no one will ever need more then 640k of memory..
Considering the scale of this issue, it seems more like a homo erectus saying "No one need fire. Too hot and not portable, like Linux." Well, except for the Linux thing.
But seriously, I think the planet itself would be long gone before that many IP addresses was even close to being used. Until, of course, nanobots start self-replicating and join the Internet Continuum & start taking IPs (those dirty bastards).