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The term 'kilobyte' has traditionally been used to refer to 1024 bytes (2 10 B). [5] [6] [7] The usage of the metric prefix kilo for binary multiples arose as a convenience, because 1024 is approximately 1000. [8] The binary interpretation of metric prefixes is still prominently used by the Microsoft Windows operating system. [9]
As 1024 (2 10) approximates 1000 (10 3), roughly corresponding to the SI prefix kilo-, it was a convenient term to denote the binary multiple. In 1999, the International Electrotechnical Commission (IEC) published standards for binary prefixes requiring the use of megabyte to denote 1000 2 bytes, and mebibyte to denote 1024 2 bytes. By the end ...
The use of the metric prefix kilo for binary multiples arose as a convenience, because 1024 is approximately 1000. [27] This definition was popular in early decades of personal computing, with products like the Tandon 5 1 ⁄ 4-inch DD floppy format (holding 368 640 bytes) being advertised as "360 KB", following the 1024-byte convention. It was ...
8,388,608 bits (1,024 kibibytes), one of a few traditional meanings of megabyte: 10 7: 11,520,000 bits – capacity of a lower-resolution computer monitor (as of 2006), 800 × 600 pixels, 24 bpp: 11,796,480 bits – capacity of a 3.5 in floppy disk, colloquially known as 1.44 megabyte but actually 1.44 × 1000 × 1024 bytes 2 24: 16,777,216 ...
However, the capacity was also quoted "1.2 MB", [41] which was a hybrid decimal and binary notation, since the "M" meant 1000 × 1024. The precise value was 1.2288 MB (decimal) or 1.171 875 MiB (binary). The 5.25-inch Apple Disk II had 256 bytes per sector, 13 sectors per track, 35 tracks per side, or a total capacity of 116 480 bytes.
The byte is the most common unit of measurement of information (megabyte, mebibyte, gigabyte, gibibyte, etc.). The decimal SI prefixes kilo, mega etc., are powers of 10. The power of two equivalents are the binary prefixes kibi, mebi, etc. Accordingly: 1 kB = 1000 bytes = 8000 bits; 1 KiB = 2 10 bytes = 1024 bytes = 8192 bits
2 10 bytes 1024 B Mi mebi, binary mega: 1 mebibyte (MiB) 2 20 bytes 1024 KiB Gi gibi, binary giga: 1 gibibyte (GiB) 2 30 bytes 1024 MiB Ti tebi, binary tera: 1 tebibyte (TiB) 2 40 bytes 1024 GiB Pi pebi, binary peta: 1 pebibyte (PiB) 2 50 bytes 1024 TiB Ei exbi, binary exa: 1 exbibyte (EiB) 2 60 bytes 1024 PiB Zi zebi, binary zetta: 1 zebibyte ...
1024 = 32 2 = 4 5 = 2 10, the number of bytes in a kilobyte (in 1999, the IEC coined kibibyte to use for 1024 with kilobyte being 1000, but this convention has not been widely adopted). 1024 is the smallest 4-digit square and also a Friedman number.