In order to be as efficient as possible, binary code represents the number 1 as... 00110001
What kind of moronic shit is this?
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In order to be as efficient as possible, binary code represents the number 1 as... 00110001
>In order to be as efficient as possible
what makes you think that
Thank you for posting a frog, otherwise I'd have taken your post seriously and started explaining how 1 in binary is actually
1 in binary is 1, or more likely in practice 00000001
you're thinking about huffman codes
you can try my puzzle to learn more: https://pastebin.com/raw/Gf0Mrn0K
>huffman codes
no anon, it's digit 1 in ascii
In order to be as efficient as possible, ASCII represents the number 1 as... 49.
I mean, if going down the rabbit hole of technicalities, you could just as well say that
>ASCII represents the number 1 as 1 Excess-48
Look the mayans created this system because it works not because it's pretty. If you want some cutesy pretty pink sissy shit then maybe you should head over to /r/lgbt and ask them to fix it
>in order to be efficient as possible
Wait til you realize that a byte is the smallest piece of data you can really store or work with, unless you're going to write more code to unpack bits.
And 00110001 will be 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110001
And 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110001 will be 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110000 00100000 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110000 00100000 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110001 00100000 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110001 00100000 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110000 00100000 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110000 00100000 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110000 00100000 00110000 00110000 00110001 00110001 00110000 00110000 00110000 00110001
pissening look and sayening john conwayening
anons, riddle me this
01111001 01101111 01110101 00100000 01101010 01110101 01110011 01110100 00100000 01101100 01101111 01110011 01110100 00100000 01110100 01101000 01100101 00100000 01100111 01100001 01101101 01100101
when you think about it, we all count in base10
fuuuuuck
Fun fact:
If you count on your fingers in base 10 (like normies do), it goes up to 10. Boring!
But if you're a turbo autist like me and count your fingers in base 2 (aka binary), you can go up to 1023! Provided you have the dexterity to move all fingers up and down individually.
I can count to 1023 in a couple of seconds (much faster than you) by simply resetting my fingers after every ten. Autism is useless.
>[three random bytes] [32 aka ascii space] [four random bytes] [32] [four random bytes] [32] [three random bytes] [32] [four random bytes]
don't even have to decode it
frick you
wiser than most of IQfy
34434
zip code of dunnellon florida
also yes, frick you
sorry not sorry anon
You will never be a woman?
I don't know how to decipher this and didn't use any tools
For me. it's ASCII Z85 when possible, base64 when not.
binary was the cheapest and most efficient way to do it with vacuum tubes
its still the best way to do computation
go ahead and show us a better representation
You think you could come up with a better idea?
>number 1
Ascii character 1. Go be moronic somewhere else frogposter.
No, clearly 1.0 is 00111111 11110000 00000000 00000000 00000000 00000000 00000000 00000000
Trinary was robbed
how do you represent 3 states consistently & precisely with electricity?
High, Lo, and Hi-Z
Don't ask me how to do calculations with it though
>consistently
>precisely
>electricity
We can’t even do that now, there’s just massive amounts of engineering to offset it. DRAM not leaking charge every attosecond would be a breakthrough
+, 0, -
obviously
Oof, that's going to more than double the complexity of your computer.