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This is a list of multiples (by orders of magnitude) for digital information storage, measured in bits. This article assumes a descriptive attitude towards terminology, reflecting actual usage by the speakers of the language. That means three things:
- A group of 8 bits in a computer is called a byte. A byte is the most common unit of measurement for computer architectures (megabytes, mebibytes, gigabytes, gibibytes, et cetera).
- In architectures that are 16-bit or 32-bit, which operate on 2 or 4 bytes per clock cycle, that chunk of data is sometimes called a word, although such usage is typically limited to programmers and engineers.
- The decimal prefixes kilo, mega etc. are strictly powers of 10. The powers of 2 are the binary prefixes kibi, mebi etc.
Accordingly, 8192 bits of data are a kibibyte and 8000 bits are a kilobyte.
| Binary | Decimal | Item | ||
|---|---|---|---|---|
| Factor | Term | Factor | Term | |
| 20 | bit | 100 | bit | 1 bit – 0 or 1, false or true, Low or High |
| 21 | 2 bits – a crumb (rarely used term) | |||
| 3 bits – the size of an octal digit | ||||
| 22 | nibble (also spelled nybble) |
4 bits – (aka "nibble" or "semioctet", rarely used) the size of a hexadecimal digit | ||
| 5 bits – the size of code points in the Baudot code, used in telex communication | ||||
| 6 bits – the size of code points in the Braille code, a tactile writing system for the blind | ||||
| 7 bits – the size of code points in the ASCII character set | ||||
| 23 | byte | 8 bits – (a.k.a. "octet") on many computer architectures.
– Equivalent to 1 "word" on 8-bit computers (Apple II, Atari 800, Commodore 64, et al). |
||
| 101 | decabit | 10 bits – minimum length to store a single group of 3 decimal digits |
||
| 12 bits – wordlength of the PDP-8 of Digital Equipment Corporation (built from 1965 -1990) | ||||
| 24 | 16 bits – in many programming languages, the size of an integer capable of holding 65,536 different values |
|||
| 25 | 32 bits (4 bytes) – size of an integer capable of holding 4,294,967,296 different values |
|||
| 36 bits – size of word on Univac 1100-series computers and Digital Equipment Corporation's PDP-10 | ||||
| 56 bits (7 bytes) – cipher strength of the DES encryption standard | ||||
| 26 | 64 bits (8 bytes) – size of an integer capable of holding 18,446,744,073,709,551,616 different values |
|||
| 80 bits (10 bytes) – size of an extended precision floating point number, for intermediate calculations that can be performed in floating point units of most processors of the x86 family | ||||
| 102 | hectobit | 100 bits | ||
| 27 | 128 bits (16 bytes) – size of addresses in IPv6, the emerging Internet protocol |
|||
| 160 bits – maximum key length of the SHA-1, standard Tiger (hash), and Tiger2 cryptographic message digest algorithms | ||||
| 28 | 256 bits (32 bytes) – minimum key length for the recommended strong cryptographic message digests as of 2004[update] | |||
| 29 | 512 bits (64 bytes) – maximum key length for the standard strong cryptographic message digests in 2004 | |||
| 103 | kilobit | 1000 bits | ||
| 210 | kibibit | 1024 bits (128 bytes) | ||
| 1288 bits – approximate maximum capacity of a standard magnetic stripe card | ||||
| 211 | 2048 bits (256 bytes) | |||
| 212 | 4096 bits (512 bytes) – typical sector size, and minimum space allocation unit on computer storage volumes, with most file systems | |||
| 4704 bits (588 bytes) – uncompressed single-channel frame length in standard MPEG audio (75 frames per second and per channel), with medium quality 8-bit sampling at 44,100 Hz (or 16-bit sampling at 22,050 Hz) | ||||
| 8000 bits (103 bytes) – one kilobyte | ||||
| 213 | kibibyte | 8192 bits (1,024 bytes) | ||
| 9408 bits (1,176 bytes) – uncompressed single-channel frame length in standard MPEG audio (75 frames per second and per channel), with standard 16-bit sampling at 44,100 Hz | ||||
| 104 | 15,350 bits – one screen of data displayed on an 8-bit monochrome text console (80x24) | |||
| 214 | 16,384 bits (2 kibibytes) | |||
| 20,000 bits – approximate amount of information on a sheet of single-spaced typewritten paper | ||||
| 215 | 32,768 bits (4 kibibytes) | |||
| 216 | 65,536 bits (8 kibibytes) | |||
| 105 | 100,000 bits | |||
| 217 | 131,072 bits (16 kibibytes) | |||
| 150 kilobits – approximate size of this article as of 20 April 2007 | ||||
| 218 | 262,144 bits (32 kibibytes) | |||
| 219 | 524,288 bits (64 kibibytes) | |||
| 106 | megabit | 1,000,000 bits | ||
| 220 | mebibit | 1,048,576 bits (128 kibibytes) | ||
| 1,978,560 bits – a one-page, standard-resolution black-and-white fax (1728 × 1145 pixels) | ||||
| 221 | 2,097,152 bits (256 kibibytes) | |||
| 4,147,200 bits – one frame of uncompressed NTSC DVD video (720 × 480 × 12 bpp Y'CbCr) | ||||
| 222 | 4,194,304 bits (512 kibibytes) | |||
| 4,976,640 bits – one frame of uncompressed PAL DVD video (720 × 576 × 12 bpp Y'CbCr) | ||||
| 8,343,400 bits – one "typical" sized photograph with reasonably good quality (1024 × 768 pixels). | ||||
| 223 | mebibyte | 8,388,608 bits (1024 kibibytes) | ||
| 107 | 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 | ||||
| 224 | 16,777,216 bits (2 mebibytes) | |||
| 25 megabits – amount of data in a typical color slide | ||||
| 32,582,657 bits – size of the largest known Mersenne prime: All of its bits are 1. | ||||
| 225 | 33,554,432 bits (4 mebibytes) | |||
| 55,296,000 bits – capacity of a high-resolution computer monitor as of 2007, 1920 × 1200 pixels, 24 bpp | ||||
| 50–100 megabits – amount of information in a typical phone book | ||||
| 226 | ||||
| 108 | ||||
| 67,108,864 bit (8 mebibytes) | ||||
| 227 | 134,217,728 bits (16 mebibytes) | |||
| 150 megabits – amount of data in a large foldout map | ||||
| 228 | 268,435,456 (32 mebibytes) | |||
| 423,360,000 bits: a five-minute audio recording, in CDDA quality | ||||
| 229 | 536,870,912 bits (64 mebibytes) | |||
| 109 | gigabit | 1,000,000,000 bits | ||
| 230 | gibibit | 1,073,741,824 bits (128 mebibytes) | ||
| 231 | 2,147,483,648 bits (256 mebibytes) | |||
| 232 | 4,294,967,296 bits (512 mebibytes) | |||
| 5.45×109 bits (650 mebibytes) – capacity of a regular compact disc | ||||
| 5.89×109 bits (702 mebibytes) – capacity of a large regular compact disc | ||||
| 6.4×109 bits – capacity of the human genome, 3.2×109 base pairs (Each pair encodes two bits of data.) | ||||
| 233 | gibibyte | 8,589,934,592 bits (1024 mebibytes) | ||
| 1010 | 10,000,000,000 bits | |||
| 234 | 17,179,869,184 bits (2 gibibytes) | |||
| 235 | 34,359,738,368 bits (4 gibibytes) | |||
| 4.04×1010 bits (4.7 gigabytes) – capacity of a single-layer, single-sided DVD | ||||
| 236 | 68,719,476,736 bits (8 gibibytes) | |||
| 1011 | 100,000,000,000 bits | |||
| 237 | 137,438,953,472 bits (16 gibibytes) | |||
| 1.46×1011 bits (17 gigabytes) – capacity of a double-sided, dual-layered DVD | ||||
| 2.15×1011 bits (25 gigabytes) – capacity of a single-sided, single-layered 12-cm Blu-ray disc | ||||
| 238 | 274,877,906,944 bits (32 gibibytes) | |||
| 239 | 549,755,813,888 bits (64 gibibytes) | |||
| 1012 | terabit | 1,000,000,000,000 bits (125 gigabytes) | ||
| 240 | tebibit | 1,099,511,627,776 bits (128 gibibytes) more than 137 gigabytes | ||
| 1.6×1012 bits (200 gigabytes) – capacity of a hard disk that would be considered average as of 2008[update] | ||||
| 241 | 2,199,023,255,552 bits (256 gibibytes) | |||
| (approximately) 4.12×1012 bits – as of 2002[update], data of π to the largest number of digits ever calculated (1.24×1012) | ||||
| 242 | 4,398,046,511,104 bits (512 gibibytes) | |||
| 243 | tebibyte | 8,796,093,022,208 bits (1024 gibibytes) | ||
| 1013 | 10,000,000,000,000 bits (1.25 terabytes) – capacity of a human being's functional memory, according to Raymond Kurzweil in The Singularity Is Near, p. 126 | |||
| 244 | 17,592,186,044,416 bits (2 tebibytes) | |||
| 245 | 35,184,372,088,832 bits (4 tebibytes) | |||
| 246 | 70,368,744,177,664 bits (8 tebibytes) | |||
| 1014 | 100,000,000,000,000 bits | |||
| 247 | 140,737,488,355,328 bits (16 tebibytes) | |||
| 1.5×1014 bits (18.75 terabytes) – amount of text in the Library of Congress, if it were all digitized | ||||
| 248 | 281,474,976,710,656 bits (32 tebibytes) | |||
| 249 | 562,949,953,421,312 bits (64 tebibytes) | |||
| 1015 | petabit | 1,000,000,000,000,000 bits | ||
| 250 | pebibit | 1,125,899,906,842,624 bits (128 tebibytes) | ||
| 2.4×1015 bits (300 terabytes) – size of the Internet Archive in As of 2004[update] | ||||
| 251 | 2,251,799,813,685,248 bits (256 tebibytes) | |||
| 252 | 4,503,599,627,370,496 bits (512 tebibytes) | |||
| 8,000,000,000,000,000 bits (1015 bytes) – one petabyte | ||||
| 253 | pebibyte | 9,007,199,254,740,992 bits (1024 tebibytes) | ||
| 1016 | 10,000,000,000,000,000 bits | |||
| 254 | 18,014,398,509,481,984 bits (2 pebibytes) | |||
| 255 | 36,028,797,018,963,968 bits (4 pebibytes) | |||
| 4.5×1016 bits (5.625 petabytes) – estimated hard drive space in Google's server farm in As of 2004[update] | ||||
| 256 | 72,057,594,037,927,936 bits (8 pebibytes) | |||
| 1017 | 100,000,000,000,000,000 bits | |||
| 257 | 144,115,188,075,855,872 bits (16 pebibytes) | |||
| 258 | 288,230,376,151,711,744 bits (32 pebibytes) | |||
| 259 | 576,460,752,303,423,488 bits (64 pebibytes) | |||
| 8 ×1017, the storage capacity of the fictional Star Trek character Data | ||||
| 1018 | exabit | 1,000,000,000,000,000,000 bits | ||
| 260 | exbibit | 1,152,921,504,606,846,976 bits (128 pebibytes) | ||
| 1.6×1018 bits (200 petabytes) – total amount of printed material in the world | ||||
| 261 | 2,305,843,009,213,693,952 bits (256 pebibytes) | |||
| 262 | 4,611,686,018,427,387,904 bits (512 pebibytes) | |||
| 263 | exbibyte | 9,223,372,036,854,775,808 bits (1024 pebibytes) | ||
| 1019 | 10,000,000,000,000,000,000 bits | |||
| 264 | 18,446,744,073,709,551,616, bits (2 exbibytes) | |||
| 265 | 36,893,488,147,419,103,232, bits (4 exbibytes) | |||
| 266 | 73,786,976,294,838,206,464, bits (8 exbibytes) | |||
| 1020 | 100,000,000,000,000,000,000 bits | |||
| 267 | 147,573,952,589,676,412,928 bits (16 exbibytes) | |||
| 268 | 295,147,905,179,352,825,856 bits (32 exbibytes) | |||
| 269 | 590,295,810,358,705,651,712 bits (64 exbibytes) | |||
| 1021 | zettabit | 1,000,000,000,000,000,000,000 bits | ||
| 270 | zebibit | 1,180,591,620,717,411,303,424 bits (128 exbibytes) | ||
| 271 | 2,361,183,241,434,822,606,848 bits (256 exbibytes) | |||
| 272 | 4,722,366,482,869,645,213,696 bits (512 exbibytes) | |||
| 273 | zebibyte | 9,444,732,965,739,290,427,392 bits (1024 exbibytes) | ||
| 1022 | 10,000,000,000,000,000,000,000 bits | |||
| 1.8×1022 bits (2.25 zettabytes) – amount of information that can be stored in 1 gram of DNA | ||||
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For comparison's sake, the Avogadro constant is 6.02214179(30)×1023 entities per mole, based upon the number of atoms in 12 grams of carbon.
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