Not just them Americans too, have a look at this.
Not just them Americans too, have a look at this.
It’s like a fight to the end. Always a good spot for a fight to finish.
It’s pretty common in Japan actually for a few reasons. One being space saving. And you got it the wrong way around the gray water from washing is used to flush.
The moms lick them clean after birth, and if you’re expecting any animal to be clean I got bad news for ya.
Bonus fun fact the cows tend to eat the afterbirth as well. Source grew up on a farm/ranch, if you want gross learn about prolapse. Guess who had skinny arms as a teenager and got to help keep cows alive till the vet came and had two thumbs? This guy… not sure I should be proud of what I had to do but yeah cows is expensive.
Yeah this only really applies to Algol style imperative languages. Dependent types and say stack languages like idris and apl are dramatically different in their underlying axioms.
Basically the father Ted skit with cows https://youtu.be/MMiKyfd6hA0
They’re the winter night terrors in mn dontchaknow.
Well the borg know some of the most deadly items in existence are legos so obviously they’ll add that weapon to their arsenal.
Sorry, but your reply suggests otherwise.
I’m at work, I’m not going to go into a thesis on ip allocation.
The RIRs (currently) never allocate a /64 nor a /58. /48 is their (currently) smallest allocation. For example, of the ~800,000 /32’s ARIN has, only ~47k are “fragmented” (smaller than /32) and <4,000 are /48s. If /32s were the average, we’d be fine, but in our infinite wisdom, we assign larger subnets (like Comcast’s 2601::/20 and 2603:2000::/20).
Correct all noted here https://www.iana.org/numbers/allocations/arin/asn/
Taking into account the RIPE allocations, noted above, the closer equivalent to /8 is the 1.048M /20s available. Yes, it’s more than the 8-bit class-A blocks, but does 1 million really sound like the scale you were talking about? “enough addresses in ipv6 to address every known atom on earth”
If you’re going to go through and conflate 2^128 as being larger than the amount of atoms on earth to a prefixing assignment scheme I’m just going to assume this is a bad faith argument.
Have a good one I’m not wasting more time on this. The best projections for “exhausting” our ipv6 allocations is around 10 million years from now. I think by then we can change the default cidr allocations.
https://samsclass.info/ipv6/exhaustion-2016.htm
Its old sure but not worth arguing further.
Their sprocket based economy next?
Cows will also chomp down on meat and little birds if given the opportunity. I grew up on a ranch herbivore doesn’t mean vegan like peeps seem to think it does. If they feel like they’re low on a nutrient and have opportunity they’ll nom on anything. No this isn’t pica either.
I’m fully aware how rirs allocate ipv6. The smallest allocation is a /64, that’s 65535 /64’s. There are 2^32 /32’s available, and a /20 is the minimum allocatable now. These aren’t /8’s from IPv4, let’s look at it from a /56, there are 10^16 /56 networks, roughly 17 million times more network ranges than IPv4 addresses.
/48s are basically pop level allocations, few end users will be getting them. In fact comcast which used to give me /48s is down to /60 now.
I’ll repeat, we aren’t running out any time soon, even with default allocations in the /3 currently existing for ipv6.
This is the worst math that ever mathed. IPv4 is 32 bits of address space. IPv6 is 128. That is 2^32 vs 2^128. Not 2^52, which isn’t even wrong it’s just weird, hopefully this is just some weird performance joke. There are enough addresses in ipv6 to address every known atom on earth. We aren’t running out anytime soon. 96 doublings of IPv4s address space is a number you can’t fathom.
Heh in German the word for gloves is literally hand shoe. So you’ve a very German pov.
I mean I’ve been using native dual stack for over a decade and I’m most definitely American. A fun anecdote was I was having issues with clicking on links from Google once and turned out ipv4 was busted but 6 worked fine for half a day. And there really isn’t any turning on ipv6 I get it by default and it’s with the most hated isp Comcast. They’re actually really good about v6 support I’ve not moved off them because of it. It’s literally 10ms faster than 4 lilely due to cgnat.
The USA is ahead of most nations at about 50% so not sure how you’re coming to that conclusion based off of evidence. Outside of maybe Brazil in the americas on both continents our ipv6 adoption is better than the rest, Canada included.
No don’t take shitposts literally. I’ve been using ipv6 for a decade at home now in the USA and I don’t pay extra for it ever. Also why are you assuming this post refers to the us?
If you’re not there it’s free real estate and goes down in value fast as it cools. The cats know wats up.
I use arch, err nixos/nix on macOS btw. Do I win or have I made the Linux nerds angy?