Kilobit

The kilobit is a multiple of the unit bit for digital information or computer storage. The prefix kilo- (symbol k) is defined in the International System of Units (SI) as a multiplier of 103 (1 thousand),[1] and therefore,

1 kilobit = 103bits = 1000 bits.
Decimal
Value  Metric 
1000 kbitkilobit
10002 Mbitmegabit
10003 Gbitgigabit
10004 Tbitterabit
10005 Pbitpetabit
10006 Ebitexabit
10007 Zbitzettabit
10008 Ybityottabit
10009 Rbitronnabit
100010 Qbitquettabit
Binary
Value  IEC  JEDEC 
1024 Kibitkibibit KbitKbkilobit
10242 Mibitmebibit MbitMbmegabit
10243 Gibitgibibit GbitGbgigabit
10244 Tibittebibit
10245 Pibitpebibit
10246 Eibitexbibit
10247 Zibitzebibit
10248 Yibityobibit
Orders of magnitude of data

The kilobit has the unit symbol kbit or kb.

Using the common byte size of 8 bits, 1 kbit is equal to 125 bytes.

The kilobit is commonly used in the expression of data rates of digital communication circuits as kilobits per second (kbit/s or kb/s), or abbreviated as kbps,[2] as in, for example, a 56 kbps PSTN circuit, or a 512 kbit/s broadband Internet connection.

The unit symbol kb (lowercase 'b') is typographically similar to the international standard unit symbol for the kilobyte, i.e. kB (uppercase 'B'). The International Electrotechnical Commission (IEC) recommends the symbol kbit instead of kb for kilobit. The prefix kilo- is often used in fields of computer science and information technology with a meaning of multiplication by 1024 instead of 1000, contrary to international standards, in conjunction with the base unit byte and bit, in which case it is to be written as Ki-, with a capital letter K,[3] e.g., 1 Kibit = 1024 bits. The decimal SI definition, 1 kbit/s = 1000 bit/s, is used uniformly in the context of telecommunication transmission speeds.

The kilobit is closely related to the kibibit, a unit multiple derived from the binary prefix kibi- (symbol Ki) of the same order of magnitude,[3] which is equal to 210bits = 1024 bits, or approximately 2% larger than the kilobit. Despite the definitions of these new prefixes, meant for binary-based quantities of storage by international standards organizations, memory semiconductor chips are still marketed using the metric prefix names to designate binary multiples.

See also

References

  1. "Definitions of the SI units: The twenty SI prefixes". physics.nist.gov.
  2. "Services Update". webservices.ieee.org. Archived from the original on 2020-09-04. Retrieved 2019-08-05.
  3. "Definitions of the SI units: The binary prefixes". physics.nist.gov.
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