I still don't get how "did you read it?" is attacking anyone? It's true I asked for feedback but I'm a bit overwhelmed that I had to clarify that I'm interested in feedback about the post from people who actually read it.
If a hard drive has exactly 8'269'642'989'568 bytes what's the benefit of using binary prefixes instead of decimal prefixes?
There is a reason for memory like caches, buffer sizes and RAM. But we don't count printer paper with binary prefixes because the printer communication uses binary.
There is no(!) reason to label hard drive sizes with binary prefixes.
That's true but the entire disk size is not an exact power of two that's why binary prefixes (1024 conversation) don't have any benefit whatsoever when it comes to hard drives. With memory it's a bit different because other than with storage devices RAM size is always exactly a power of two.
Binary prefixes (the ones with 1024 conversations) are used to simplify numbers that are exact powers of two - for example RAM and similar types of memory. Hard drive sizes are never exact powers of two. Disk storing bits don't have anything to do with the size of the disk.
So why don't they just label drives in Terabit instead of terabyte. The number would be even bigger. Why don't Europeans also use Fahrenheit, with the bigger numbers the temperature for sure would instantly feel warmer 🤣
Jokes aside. Even if HDD manufacturers benefit from "the bigger numbers" using the 1000 conversation is the objectively only correct answer here, because there is nothing intrinsically base 2 about hard drives. You should give the blog post a read 😉
I tried to make the title the exact opposite of clickbait. There are no unanswered questions on purpose. No "Find out if a kilobyte is 1024 bytes or 1000 bytes". I think people are smart enough that I not just reiterate for 20min why a kilobyte is 1000 bytes but instead go into more details.
The main problem is probably that people won't sacrifice 20min of there time on something they are not sure if it's a good read but the only thing I can do is trying to encourage them to read it anyway.
There are not ads, no tracking, no cookies, no login, no newsletter, no paywall. I don't benefit if you read it. I'd like to clear up misconceptions but I can't force people to read it.
Pretty obvious that you didn't read the article. If you find the time I'd like to encourage you to read it. I hope it clears up some misconceptions and make things clearer why even in those 60+ years it was always intellectually dishonest to call 1024 byte a kilobyte.
Did you read the blog post? If you don't find the time you should at least read "(Un)lucky coincidence" to see why it's not (and never was) a bright idea to call 1024 "a kilo".
Did you read the post? The problem I have is redefining the kilo because of a mathematical fluke.
You certainly can write a mass in base 60 and kg, there is nothing wrong about that, but calling 3600 gramm a "kilogram" because you think it's convenient that 3600 (60^2) is "close to" 1000 so you just call it a kilogram, because that's exactly what's happening with binary and 1024.
If you find the time you should read the post and if not at least the section "(Un)lucky coincidence".
But the first part is called prefix even in the standard itself. I wanted to make that distinction because it's not important what the base unit is. By speaking about prefixes instead of the unit as a whole I wanted to make it clear that you can (at least in theory) use any base unit. So everything I said about KiB and kB is also true for Kib and kb and even for kK (kilokelvin) and KiB (kibikelvin) 🤣
It's true that the actual "story" is very short. 1 kB is 1000 bytes and 1 KiB is 1024 bytes. But the post is not about this, but about why calling 1024 a kilobyte always was wrong even in a historical context and even though almost everybody did that.
I still don't get how "did you read it?" is attacking anyone? It's true I asked for feedback but I'm a bit overwhelmed that I had to clarify that I'm interested in feedback about the post from people who actually read it.