1 IPv4 Class A is approximately 0.39% of available IPv4 space 1.67*10^7/(4.29*10^9)
Uh.... hu? It's worse than that... at least a bit. Disallowing 0/8, 10/8 and 127/8, you wind up with 125 Class A address prefixes, and assuming that each of these can be used all the way up to the theoretical 16,777,216 addresses, then we have 2,097,152,000 addresses there. For the non-math folks, that's ~= to 2.1*10^9. If we then further count Class B's as all prefixes from 128.0/16 to 191.255/16, excluding the first, last, 169.254/16, and 172.16/12, there are 16,349 Class B's, with a theoretical 65,536 usable addresses in each, then we have 1,071,448,064 addresses there. If we then further count Class C's as all prefixes from 192.0.0.0/24 to 223.255.255.0/24, and there are a few blocks in there that ought to be excluded, but who cares, that's 2,031,616 networks of 256 addresses, or 520,093,696 addresses there. I don't realistically believe that D or E are usable general-purpose address classes within the expected remaining lifetime of the protocol. So, we have: 1 ClassA= 16,777,216 All IPv4= 3,688,693,760 So it's closer to .5%, theoretical. It's even more interesting if you look at it after excluding allocated-but-not-announced space. I'm personally glad that all those Class C's aren't announced individually.. ... JG -- Joe Greco - sol.net Network Services - Milwaukee, WI - http://www.sol.net "We call it the 'one bite at the apple' rule. Give me one chance [and] then I won't contact you again." - Direct Marketing Ass'n position on e-mail spam(CNN) With 24 million small businesses in the US alone, that's way too many apples.