• lqdrchrd@lemmy.blahaj.zone
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    8 months ago

    Size of an uncompressed image of the Washington Crossing the Delaware painting = 1 Yankee

    12 Yankees in a Doodle

    60 Doodles in an Ounce (entirely unrelated to the volume or weight usage of ounce)

  • cmnybo@discuss.tchncs.de
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    8 months ago

    How about feet of IBM punch cards?

    A 1 foot tall stack holds 1,647,360 bits of data if all 80 columns are used. If only 72 columns are used for data then it’s 1,482,624 bits of data and the remaining columns can be used to number each card so they can be put back in order after the stack is dropped.

    • YodaDaCoda@aussie.zone
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      8 months ago

      I like this because the amount of bits in a stack can vary depending on whose foot you use to measure, or the thickness of the card stock.

      • cartoon meme dog@lemm.ee
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        8 months ago

        IBM standard cards are one 48th of a barleycorn thick. I believe IBM measured from the 1932 Iowa Reference Barleycorn, now kept in the vault inside Mt Rushmore.

  • Rinox@feddit.it
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    8 months ago

    bit, Nibble, Byte, Word, doubleword, longword, quadword, double-quadword, verylongword, halfword

    They check all Imperial criteria:

    • confusing names
    • some used only in some systems
    • size depends on where you are
    • some may overlap
    • doesn’t manage to cover all the possible needs, but do you really need more than 64 bits?
    • would probably cause you to crash a rocket
    • uis@lemm.ee
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      8 months ago

      Words! Of course! Imperial measurement is words. Because they are as inconsistent as other imperial units.

  • solrize@lemmy.world
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    8 months ago

    1 tweet = 140 bytes

    1 (printed) page = 60 lines of 60 characters = 3600 bytes

    1 moa (minute of audio in 128000 bps mp3) = 960000 bytes

    1 mov (minute of video) = typically around 30MB but varies by resolution and encoding, like ounces vs troy ounces vs apothecary ounces.

    1 loc (library of congress, used for measuring hard drive capacity) = around 10TB depending on jurisdiction.

    • Melmi@lemmy.blahaj.zone
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      8 months ago

      These are all rough averages, of course, but Tweets can be rather bigger than 140 bytes since they’re Unicode, not ASCII. What’s Twitter without emoji?

  • tvbusy@lemmy.dbzer0.com
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    8 months ago

    I would suggest:

    • 1KB = storage capacity of 1 kg of 1.44 floppy disks.
    • 1MB = storage capacity of 0.0106 mile of CD drives.
    • 1GB = storage capacity of 1 good computer in the 2000s.
    • 1TB = storage capacity of 1 truck of GB (see above)

    PS: just to be clear, I meant CD drives, not CD discs.

  • insomniac_lemon@kbin.social
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    8 months ago

    KiB, MiB, GiB etc are more clear. It makes a big difference especially 1TB vs 1TiB.

    The American way would probably be still using the units you listed but still meaning 1024, just to be confusing.

    Either that or maybe something that uses physical measurement of a hard-drive (or CD?) using length. Like that new game is 24.0854 inches of data (maybe it could be 1.467 miles of CD?).

    • survivalmachine@beehaw.org
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      8 months ago

      The American way would probably be still using the units you listed but still meaning 1024, just to be confusing.

      American here. This is actually the proper way. KB is 1024 bytes. MB is 1024 KB. The terms were invented and used like that for decades.

      Moving to ‘proper metric’ where KB is 1000 bytes was a scam invented by storage manufacturers to pretend to have bigger hard drives.

      And then inventing the KiB prefixes was a soft-bellied capitulation by Europeans to those storage manufacturers.

      Real hackers still use Kilo/Mega/Giga/Tera prefixes while still thinking in powers of 2. If we accept XiB, we admit that the scummy storage vendors have won.

      Note: I’ll also accept that I’m an idiot American and therefore my opinion is stupid and invalid, but I stand by it.

      • Papamousse@beehaw.org
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        8 months ago

        Absolutely, I started computers in 1981, for me 1K is 1024 bytes and will always be. 1000 bytes is a scam

      • kbal@fedia.io
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        8 months ago

        Calling 1048576 bytes an “American megabyte” might be technically wrong, but it’s still slightly less goofy-looking than the more conventional “MiB” notation. I wish you good luck in making it the new standard.

      • WalrusDragonOnABike [they/them]@reddthat.com
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        8 months ago

        Kilo comes from greek and has meant 1000 for 1000’s of years. If you want 2^10 to be represented using greek prefixes, it better involve “deca” and “di”. Kilo (and di) would be usable for roughly 1.071508607186267 x 10^301 byte. KB was wrong when it was invented, but they were only wrong for decades at least.

        • survivalmachine@beehaw.org
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          8 months ago

          Computers have ruled the planet for longer than the Greeks ever did. The history lesson is appreciated, but we’re living in the future, now, and the future is digital.

      • Kairos@lemmy.today
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        8 months ago

        No the correct way is to use the proper fucking metric standard. Use Mi or Gi if you need it. We have computers that can divide large numbers now. We don’t need bit shifting.

        • nybble41@programming.dev
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          8 months ago

          The metric standard is to measure information in bits.

          Bytes are a non-metric unit. Not a power-of-ten multiple of the metric base unit for information, the bit.

          If you’re writing “1 million bytes” and not “8 million bits” then you’re not using metric.

          If you aren’t using metric then the metric prefix definitions don’t apply.

          There is plenty of precedent for the prefixes used in metric to refer to something other than an exact power of 1000 when not combined with a metric base unit. A microcomputer is not one one-thousandth of a computer. One thousand microscopes do not add up to one scope. Megastructures are not exactly one million times the size of ordinary structures. Etc.

          Finally: This isn’t primarily about bit shifting, it’s about computers being based on binary representation and the fact that memory addresses are stored and communicated using whole numbers of bits, which naturally leads to memory sizes (for entire memory devices or smaller structures) which are powers of two. Though the fact that no one is going to do something as idiotic as introducing an expensive and completely unnecessary division by a power of ten for every memory access just so you can have 1000-byte MMU pages rather than 4096 also plays a part.

        • ursakhiin@beehaw.org
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          8 months ago

          This is such a weird take to me. We don’t even colloquially discuss computer storage in terms of 1000.

          The Greek terms were used from the beginning of computing and the new terms of kibi and mebi (etc.) were only added in 1998 when Members it the IEC got upset. But despite that, most personal computers still report in the binary way. The decimal is only used on boxes for marketing terms.

        • PowerCrazy@lemmy.ml
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          8 months ago

          Hey how is “bit shifting” different then division? (The answer may surprise you).

            • PowerCrazy@lemmy.ml
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              8 months ago

              interesting, so does the computer have a special “base 10” ALU that somehow implements division without bit shifting?

              • nybble41@programming.dev
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                8 months ago

                In general integer division is implemented using a form of long division, in binary. There is no base-10 arithmetic involved. It’s a relatively expensive operation which usually requires multiple clock cycles to complete, whereas dividing by a power of two (“bit shifting”) is trivial and can be done in hardware simply by routing the signals appropriately, without any logic gates.

                • PowerCrazy@lemmy.ml
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                  8 months ago

                  In general integer division is implemented using a form of long division, in binary.

                  The point of my comment is that division in binary IS bitshifting. There is no other way to do it if you want the real answer. You can estimate, you can round, but the computational method of division is done via bitshifting of binarary expansions of numbers in an ALU.

    • Kairos@lemmy.today
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      8 months ago

      The difference really needs to be enforced.

      My ram is in GiB but advertised in GB ???

      • xionzui@sh.itjust.works
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        8 months ago

        Your RAM is in GiB and GB. You can measure it either way you prefer. If you prefer big numbers, you can say you have 137,438,953,472 bits of RAM

        • Consti@lemmy.world
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          8 months ago

          Pretty sure the commenter above meant that the their RAM was advertised as X GiB but they only got X GB, substitute X with 4/8/16/your amount

          • xionzui@sh.itjust.works
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            8 months ago

            As far as I know, RAM only comes in GiB sizes. There is some overhead that reduces the amount you see in the OS though. But that complaint is valid for storage devices if you don’t know the units and expect TB/GB on the box to match the numbers in Windows

  • Leo Uino@lemmy.sdf.org
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    8 months ago

    Most people would use “word”, “half-word”, “quarter-word” etc, but the Anglophiles insist on “tuppit”, “ternary piece”, “span” and “chunk” (that’s 5 bits, or 12 old bits).

  • leaky_shower_thought@feddit.nl
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    8 months ago

    why go for RAMs when the constitution says ARMs…

    and no more bits or bytes too, double bytes small or quadbytes regular size all the way.

    • kilo bytes is a grand

    • mega bytes is a venti

    • giga bytes is a grand venti

    • terabytes is a doble venti

    really large amounts of ARM is a ton

    • uis@lemm.ee
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      8 months ago

      why go for RAMs when the constitution says ARMs…

      x86 is heresy

    • joelfromaus@aussie.zone
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      8 months ago

      I’ve seen so many products advertised by how many “songs” or “movies” it can hold. Never mind you can encode the same movie to be massive or small. So I think we’ve found the right answer!

  • 𝕱𝖎𝖗𝖊𝖜𝖎𝖙𝖈𝖍@lemmy.world
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    8 months ago

    12 bits to an eagle

    27 eagles to a liberty (changes whenever an amendment is added)

    1776 liberties to a freedom

    Computers are still programmed in bytes, but filesize is always in freedoms.

  • prime_number_314159@lemmy.world
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    8 months ago

    From smallest to biggest:

    Bits (basic unit)

    Bytes (8:1 reduction)

    Words (4:1 reduction)

    KiB (32:1 reduction)

    MiB (1024:1)

    GiB (1024:1)

    TiB (1024:1)

    PiB (1024:1)

    A normal amount of porn (237:1)

    • barsoap@lemm.ee
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      8 months ago

      All definitely not metric as metric uses steps of 1000 (and there’s also 10 and 100 and 1/10th and 1/100th but that doesn’t extend to 10000 and 1/10000th).

      The KiB, MiB, etc, the 2^10 scale is called binary prefixes (as opposed to decimal prefixes KB, MB, etc) and standardised by the IEC.

      And while the B in KiB is always going to mean eight bits it’s not a given that a byte is actually eight bits, network people still use “octet” to disambiguate because back in the days there were plenty of architectures around with other byte sizes. “byte” simply means “smallest number of bits an operation like addition will be done in” in the context of architectures. Then you have word for two bytes, d(ouble)word for four, q(uad)word for eight, o(cto)word for 16, and presumably h(ex)word for 32 it’s already hard to find owords in the wild. Yes it’s off by one of course it’s off by one what do you expect it’s about computers. There’s also nibble for half a byte.

      EDIT: Actually that’s incorrect word is also architecture-dependent, the word/dword/qword sequence applies to architectures (like x86) which went from being 16-bit machines to now being 64 bit while keeping backwards compatibility. E.g. RISC-V uses 32-bit words, 16 bits there are a half-word.

      The bit, at least, is not under contention everyone agrees what it is. Though you can occasionally see people staring in wild disbelief and confusion at statements such as “this information can be stored in ~1.58 bits”. That number is ~ log2 3, that is, the information that fits in one trit. Such as “true, false, maybe”.

      • notfromhere@lemmy.ml
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        8 months ago

        Great write up, glad to see mention of nibble (my favorite lol)… You forgot to mention byte order (Little/Big Endian).

      • prime_number_314159@lemmy.world
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        8 months ago

        So you’re saying my proposed imperial units depend on where you are, and who is using them, for what purpose? That just sells me on them as imperial units even more. :)

        Thank you for the details.

    • uis@lemm.ee
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      8 months ago

      Words (4:1 reduction)

      Word is imperial unit. Like one british gallon is not equal to one us gallon, one x86 word is not equal one ARM word.

  • waz@lemmy.world
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    8 months ago

    I know you asked about memory, but the computer I just assembled had a 750watt power supply. As an American I think we should refer to it as a “one horsepower power supply” instead.