Data-rate units

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Bit rates (data-rate units)
NameSymbolMultiple
bit per second bit/s11
Metric prefixes (SI)
kilobit per second kbit/s 103 10001
megabit per second Mbit/s 106 10002
gigabit per second Gbit/s 109 10003
terabit per second Tbit/s 1012 10004
Binary prefixes (IEC 80000-13)
kibibit per second Kibit/s 210 10241
mebibit per second Mibit/s 220 10242
gibibit per second Gibit/s 230 10243
tebibit per second Tibit/s 240 10244

In telecommunications, data transfer rate is the average number of bits (bitrate), characters or symbols (baudrate), or data blocks per unit time passing through a communication link in a data-transmission system. Common data rate units are multiples of bits per second (bit/s) and bytes per second (B/s). For example, the data rates of modern residential high-speed Internet connections are commonly expressed in megabits per second (Mbit/s).

Contents

Standards for unit symbols and prefixes

Unit symbol

The ISQ symbols for the bit and byte are bit and B, respectively. In the context of data-rate units, one byte consists of 8 bits, and is synonymous with the unit octet. The abbreviation bps is often used to mean bit/s, so that when a 1 Mbps connection is advertised, it usually means that the maximum achievable bandwidth is 1 Mbit/s (one million bits per second), which is 0.125 MB/s (megabyte per second), or about 0.1192 MiB/s (mebibyte per second). The Institute of Electrical and Electronics Engineers (IEEE) uses the symbol b for bit.

Unit prefixes

In both the SI and ISQ, the prefix k stands for kilo, meaning 1000, while Ki is the symbol for the binary prefix kibi-, meaning 1024. The binary prefixes were introduced in 1998 by the International Electrotechnical Commission (IEC) and in IEEE 1541-2002 which was reaffirmed on 27 March 2008. The letter K is often used as a non-standard abbreviation for 1,024, especially in "KB" to mean KiB, the kilobyte in its binary sense. In the context of data rates, however, typically only decimal prefixes are used, and they have their standard SI interpretation.

Variations

In 1999, the IEC published Amendment 2 to "IEC 60027-2: Letter symbols to be used in electrical technology – Part 2: Telecommunications and electronics". This standard, approved in 1998, introduced the prefixes kibi-, mebi-, gibi-, tebi-, pebi-, and exbi- to be used in specifying binary multiples of a quantity. The name is derived from the first two letters of the original SI prefixes followed by bi (short for binary). It also clarifies that the SI prefixes are used only to mean powers of 10 and never powers of 2.

Decimal multiples of bits

These units are often used in a manner inconsistent with the IEC standard.

Kilobit per second

Kilobit per second (symbol kbit/s or kb/s, often abbreviated "kbps") is a unit of data transfer rate equal to:

Megabit per second

Megabit per second (symbol Mbit/s or Mb/s, often abbreviated "Mbps") is a unit of data transfer rate equal to:

Gigabit per second

Gigabit per second (symbol Gbit/s or Gb/s, often abbreviated "Gbps") is a unit of data transfer rate equal to:

Terabit per second

Terabit per second (symbol Tbit/s or Tb/s, sometimes abbreviated "Tbps") is a unit of data transfer rate equal to:

Decimal multiples of bytes

These units are often not used in the suggested ways; see § Variations.

Kilobyte per second

kilobyte per second (kB/s) (sometimes abbreviated "kBps") is a unit of data transfer rate equal to:

Megabyte per second

megabyte per second (MB/s) (can be abbreviated as MBps) is a unit of data transfer rate equal to:

Gigabyte per second

gigabyte per second (GB/s) (can be abbreviated as GBps) is a unit of data transfer rate equal to:

Terabyte per second

terabyte per second (TB/s) (can be abbreviated as TBps) is a unit of data transfer rate equal to:

Conversion table

NameSymbolbit per secondbyte per secondbit per second
(formula)		byte per second
(formula)
bit per secondbit/s10.12511/8
byte per secondB/s8181
kilobit per secondkbit/s1,0001251031/8 × 103
kibibit per secondKibit/s1,02412821027
kilobyte per secondkB/s8,0001,0008 × 103103
kibibyte per secondKiB/s8,1921,024213210
megabit per secondMbit/s1,000,000125,0001061/8 × 106
mebibit per secondMibit/s1,048,576131,072220217
megabyte per secondMB/s8,000,0001,000,0008 × 106106
mebibyte per secondMiB/s8,388,6081,048,576223220
gigabit per secondGbit/s1,000,000,000125,000,0001091/8 × 109
gibibit per secondGibit/s1,073,741,824134,217,728230227
gigabyte per secondGB/s8,000,000,0001,000,000,0008 × 109109
gibibyte per secondGiB/s8,589,934,5921,073,741,824233230
terabit per secondTbit/s1,000,000,000,000125,000,000,00010121/8 × 1012
tebibit per secondTibit/s1,099,511,627,776137,438,953,472240237
terabyte per secondTB/s8,000,000,000,0001,000,000,000,0008 × 10121012
tebibyte per secondTiB/s8,796,093,022,2081,099,511,627,776243240

Examples of bit rates

QuantityUnitbits per secondbytes per secondFieldDescription
56kbit/s56,0007,000Networking 56 kbit modem  – 56,000 bit/s
64kbit/s64,0008,000Networking64 kbit/s in an ISDN B channel or best quality, uncompressed telephone line.
1,536kbit/s1,536,000192,000Networking24 channels of telephone in the US, or a good VTC T1.
10Mbit/s10,000,0001,250,000Networking107 bit/s is the speed of classic Ethernet: 10BASE2, 10BASE5, 10BASE-T
10Mbit/s10,000,0001,250,000BiologyResearch suggests that the human retina transmits data to the brain at the rate of ca. 107 bit/s [1] [2] [ dubious discuss ]
54Mbit/s54,000,0006,750,000Networking 802.11g, Wireless G LAN
100Mbit/s100,000,00012,500,000Networking Fast Ethernet
600Mbit/s600,000,00075,000,000Networking 802.11n, Wireless N LAN
1Gbit/s1,000,000,000125,000,000Networking1 Gigabit Ethernet
10Gbit/s10,000,000,0001,250,000,000Networking 10 Gigabit Ethernet
100Gbit/s100,000,000,00012,500,000,000Networking 100 Gigabit Ethernet
1Tbit/s1,000,000,000,000125,000,000,000Networking SEA-ME-WE 4 submarine communications cable  – 1.28 terabits per second [3]
4kbit/s4,000500Audio dataminimum achieved for encoding recognizable speech (using special-purpose speech codecs)
8kbit/s8,0001,000Audio datalow bit rate telephone quality
32kbit/s32,0004,000Audio data MW quality and ADPCM voice in telephony, doubling the capacity of a 30 chan link to 60 ch.
128kbit/s128,00016,000Audio data128 kbit/s MP3  – 128,000 bit/s
192kbit/s192,00024,000Audio data192 kbit/s MP3  – 192,000 bit/s
1,411.2kbit/s1,411,200176,400Audio data CD audio (uncompressed, 16 bit samples × 44.1 kHz × 2 channels)
2Mbit/s2,000,000250,000Video data30 channels of telephone audio or a Video Tele-Conference at VHS quality
8Mbit/s8,000,0001,000,000Video data DVD quality
27Mbit/s27,000,0003,375,000Video data HDTV quality
1.244Gbit/s1,244,000,000155,500,000Networking OC-24, a 1.244 Gbit/s SONET data channel
9.953Gbit/s9,953,000,0001,244,125,000Networking OC-192, a 9.953 Gbit/s SONET data channel
39.813Gbit/s39,813,000,0004,976,625,000Networking OC-768, a 39.813 Gbit/s SONET data channel, the fastest in current use
60MB/s480,000,00060,000,000Computer data interfaces USB 2.0 High-Speed
98.3MB/s786,432,00098,304,000Computer data interfaces FireWire IEEE 1394b-2002 S800
120MB/s960,000,000120,000,000Computer data interfaces Harddrive read, Samsung SpinPoint F1 HD103Uj [4]
133MB/s1,064,000,000133,000,000Computer data interfaces Parallel ATA UDMA 6
133MB/s1,064,000,000133,000,000Computer data interfaces PCI 32-bit at 33 MHz (standard configuration)
188MB/s1,504,000,000188,000,000Computer data interfaces SATA I 1.5 Gbit/s – First generation
375MB/s3,000,000,000375,000,000Computer data interfaces SATA II 3 Gbit/s – Second generation
500MB/s4,000,000,000500,000,000Computer data interfaces PCI Express x1 v2.0
5.0Gbit/s5,000,000,000625,000,000Computer data interfaces USB 3.0 SuperSpeed - a.k.a. USB 3.1 Gen1
750MB/s6,000,000,000750,000,000Computer data interfaces SATA III 6 Gbit/s – Third generation
1,067MB/s8,533,333,3331,066,666,667Computer data interfaces PCI-X 64 bit 133 MHz
10Gbit/s10,000,000,0001,250,000,000Computer data interfaces USB 3.1 SuperSpeed+ - a.k.a. USB 3.1 Gen2
1,250MB/s10,000,000,0001,250,000,000Computer data interfaces Thunderbolt
2,500MB/s20,000,000,0002,500,000,000Computer data interfaces Thunderbolt 2
5,000MB/s40,000,000,0005,000,000,000Computer data interfaces Thunderbolt 3
8,000MB/s64,000,000,0008,000,000,000Computer data interfaces PCI Express x16 v2.0
12,000MB/s96,000,000,00012,000,000,000Computer data interfaces InfiniBand 12X QDR
16,000MB/s128,000,000,00016,000,000,000Computer data interfaces PCI Express x16 v3.0

See also

Notes

  1. "Penn Researchers Calculate How Much the Eye Tells the Brain". 26 July 2006.
  2. Koch, Kristin; McLean, Judith; Segev, Ronen; Freed, Michael A.; Berry, Michael J.; Balasubramanian, Vijay; Sterling, Peter (2006-07-25). "How Much the Eye Tells the Brain". Current Biology. 16 (14): 1428–1434. Bibcode:2006CBio...16.1428K. doi:10.1016/j.cub.2006.05.056. ISSN   0960-9822. PMC   1564115 . PMID   16860742.
  3. "Fujitsu Completes Construction of SEA-ME-WE 4 Submarine Cable Network". Fujitsu Press Releases. Fujitsu. 2005-12-13. Archived from the original on 2007-03-17. Retrieved 2008-01-31.
  4. "Samsung overtakes". 21 November 2007.

Related Research Articles

The bit is the most basic unit of information in computing and digital communication. The name is a portmanteau of binary digit. The bit represents a logical state with one of two possible values. These values are most commonly represented as either "1" or "0", but other representations such as true/false, yes/no, on/off, or +/ are also widely used.

The byte is a unit of digital information that most commonly consists of eight bits. Historically, the byte was the number of bits used to encode a single character of text in a computer and for this reason it is the smallest addressable unit of memory in many computer architectures. To disambiguate arbitrarily sized bytes from the common 8-bit definition, network protocol documents such as the Internet Protocol refer to an 8-bit byte as an octet. Those bits in an octet are usually counted with numbering from 0 to 7 or 7 to 0 depending on the bit endianness.

A binary prefix is a unit prefix that indicates a multiple of a unit of measurement by an integer power of two. The most commonly used binary prefixes are kibi (symbol Ki, meaning 210 = 1024), mebi (Mi, 220 = 1048576), and gibi (Gi, 230 = 1073741824). They are most often used in information technology as multipliers of bit and byte, when expressing the capacity of storage devices or the size of computer files.

<span class="mw-page-title-main">Gigabyte</span> Unit of digital information

The gigabyte is a multiple of the unit byte for digital information. The prefix giga means 109 in the International System of Units (SI). Therefore, one gigabyte is one billion bytes. The unit symbol for the gigabyte is GB.

Giga- ( or ) is a unit prefix in the metric system denoting a factor of a short-scale billion or long-scale milliard (109 or 1,000,000,000). It has the symbol G.

The kilobyte is a multiple of the unit byte for digital information.

The megabyte is a multiple of the unit byte for digital information. Its recommended unit symbol is MB. The unit prefix mega is a multiplier of 1000000 (106) in the International System of Units (SI). Therefore, one megabyte is one million bytes of information. This definition has been incorporated into the International System of Quantities.

Mega is a unit prefix in metric systems of units denoting a factor of one million (106 or 1000000). It has the unit symbol M. It was confirmed for use in the International System of Units (SI) in 1960. Mega comes from Ancient Greek: μέγας, romanized: mégas, lit. 'great'.

In telecommunications and computing, bit rate is the number of bits that are conveyed or processed per unit of time.

An order of magnitude is usually a factor of ten. Thus, four orders of magnitude is a factor of 10,000 or 104.

Throughput of a network can be measured using various tools available on different platforms. This page explains the theory behind what these tools set out to measure and the issues regarding these measurements.

A unit prefix is a specifier or mnemonic that is prepended to units of measurement to indicate multiples or fractions of the units. Units of various sizes are commonly formed by the use of such prefixes. The prefixes of the metric system, such as kilo and milli, represent multiplication by positive or negative powers of ten. In information technology it is common to use binary prefixes, which are based on powers of two. Historically, many prefixes have been used or proposed by various sources, but only a narrow set has been recognised by standards organisations.

File size is a measure of how much data a computer file contains or, alternately, how much storage it consumes. Typically, file size is expressed in units of measurement based on the byte. By convention, file size units use either a metric prefix or a binary prefix.

IEEE 1541-2002 is a standard issued in 2002 by the Institute of Electrical and Electronics Engineers (IEEE) concerning the use of prefixes for binary multiples of units of measurement related to digital electronics and computing. IEEE 1541-2021 revises and supersedes IEEE 1541–2002, which is 'inactive'.

The octet is a unit of digital information in computing and telecommunications that consists of eight bits. The term is often used when the term byte might be ambiguous, as the byte has historically been used for storage units of a variety of sizes.

ISO/IEC 80000, Quantities and units, is an international standard describing the International System of Quantities (ISQ). It was developed and promulgated jointly by the International Organization for Standardization (ISO) and the International Electrotechnical Commission (IEC). It serves as a style guide for using physical quantities and units of measurement, formulas involving them, and their corresponding units, in scientific and educational documents for worldwide use. The ISO/IEC 80000 family of standards was completed with the publication of the first edition of Part 1 in November 2009.

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This timeline of binary prefixes lists events in the history of the evolution, development, and use of units of measure that are germane to the definition of the binary prefixes by the International Electrotechnical Commission (IEC) in 1998, used primarily with units of information such as the bit and the byte.

In digital computing and telecommunications, a unit of information is the capacity of some standard data storage system or communication channel, used to measure the capacities of other systems and channels. In information theory, units of information are also used to measure information contained in messages and the entropy of random variables.

An order of magnitude is generally a factor of ten. A quantity growing by four orders of magnitude implies it has grown by a factor of 10000 or 104. However, because computers are binary, orders of magnitude are sometimes given as powers of two.

References


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