53-588: [REDACTED] Look up -ki , KI , Ki , ki , or ki- in Wiktionary, the free dictionary. Ki or KI may refer to: Music [ edit ] Ki (album) , a 2009 album by Devin Townsend Project Ki , a 1979 album by Kitarō "Ki", a song from the album Minecraft – Volume Beta by C418 Businesses and organizations [ edit ] Klaksvíkar Ítróttarfelag ,
106-569: A Faroese semi-professional football club Communist Initiative , Marxist–Leninist organization in Austria Karolinska Institute , Swedish university Kenyon Institute , a British research institute in Jerusalem Adam Air (2002–2008), an Indonesian airline Kiwanis International , service club Language [ edit ] Ki language , a Southern Bantoid language of Cameroon Ki (kana) ,
159-618: A Japanese syllabic character Ki (cuneiform) , a sign in cuneiform writing Gikuyu language , ISO 639-1 code:ki Names [ edit ] Ki (Korean surname) , a Korean surname Ki or Qi (surname) Ki or Ji (surname) Places [ edit ] Kangaroo Island , South Australia Ki Monastery , in India Kiawah Island , South Carolina, United States King Island (Tasmania) , Australia Kings Island , Ohio, United States, amusement park owned by Cedar Fair Entertainment Company Kiribati .ki ,
212-415: A chemical reaction or process "i": dissociation constant applicable to process, abbreviated as "i". a measure of the binding affinity of a ligand to a biomolecule Potassium iodide , chemical formula KI Gene knockin or Knock-in, a genetic engineering method Ki Database , a database of biochemical information Computing [ edit ] Ki (prefix symbol) , the prefix symbol of
265-413: A disclaimer to their later packaging and advertising. Western Digital had this footnote in their settlement. "Apparently, Plaintiff believes that he could sue an egg company for fraud for labeling a carton of 12 eggs a 'dozen', because some bakers would view a 'dozen' as including 13 items." A lawsuit ( Cho v. Seagate Technology (US) Holdings, Inc. , San Francisco Superior Court, Case No. CGC-06-453195)
318-453: A little more than that, but less than 10 × 2 = 10 737 418 240 and a file whose size is listed as "2.3 GB" may have a size closer to 2.3 × 2 ≈ 2 470 000 000 or to 2.3 × 10 = 2 300 000 000 , depending on the program or operating system providing that measurement. This kind of ambiguity is often confusing to computer system users and has resulted in lawsuits . The IEC 60027-2 binary prefixes have been incorporated in
371-405: A total capacity of 116 480 bytes. It was later upgraded to 16 sectors per track, giving a total of 140 × 2 = 143 360 bytes, which was described as "140KB" using the binary sense of "K". The most recent version of the physical hardware, the "3.5-inch diskette" cartridge, had 720 512-byte blocks (single-sided). Since two blocks comprised 1024 bytes, the capacity was quoted "360 KB", with
424-417: A typical " 4.7 GB " DVD has a nominal capacity of about 4.7 × 10 bytes , which is about 4.38 GiB . Tape drive and media manufacturers have generally used SI decimal prefixes to specify the maximum capacity, although the actual capacity would depend on the block size used when recording. Computer clock frequencies are always quoted using SI prefixes in their decimal sense. For example,
477-466: A variety of formats , and their capacities was usually specified with SI-like prefixes "K" and "M" with either decimal or binary meaning. The capacity of the disks was often specified without accounting for the internal formatting overhead, leading to more irregularities. The early 8-inch diskette formats could contain less than a megabyte with the capacities of those devices specified in kilobytes, kilobits or megabits. The 5.25-inch diskette sold with
530-483: Is 1 kibibit." The IEC 60027-2 standard recommended operating systems and other software were updated to use binary or decimal prefixes consistently, but incorrect usage of SI prefixes for binary multiples is still common. At the time, the IEEE decided that their standards would use the prefixes "kilo", etc. with their metric definitions, but allowed the binary definitions to be used in an interim period as long as such usage
583-682: Is different from Wikidata All article disambiguation pages All disambiguation pages KI">KI The requested page title contains unsupported characters : ">". Return to Main Page . Ki (prefix symbol) 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 2 = 1024 ), mebi ( Mi, 2 = 1 048 576 ), and gibi ( Gi, 2 = 1 073 741 824 ). They are most often used in information technology as multipliers of bit and byte , when expressing
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#1732765283502636-523: Is indeed 44 100 samples per second. A " 1 Gb/s " Ethernet interface can receive or transmit up to 10 bits per second, or 125 000 000 bytes per second within each packet. A " 56k " modem can encode or decode up to 56 000 bits per second. Decimal SI prefixes are also generally used for processor-memory data transfer speeds. A PCI-X bus with 66 MHz clock and 64 bits wide can transfer 66 000 000 64-bit words per second, or 4 224 000 000 bit/s = 528 000 000 B/s , which
689-611: Is the addition of explicit definitions for some quantities. In 2009, the prefixes kibi-, mebi-, etc. were defined by ISO 80000-1 in their own right, independently of the kibibyte, mebibyte, and so on. The BIPM standard JCGM 200:2012 "International vocabulary of metrology – Basic and general concepts and associated terms (VIM), 3rd edition" lists the IEC binary prefixes and states "SI prefixes refer strictly to powers of 10, and should not be used for powers of 2. For example, 1 kilobit should not be used to represent 1024 bits (2 bits), which
742-679: Is usually quoted as 528 MB/s . A PC3200 memory on a double data rate bus, transferring 8 bytes per cycle with a clock speed of 200 MHz has a bandwidth of 200 000 000 × 8 × 2 = 3 200 000 000 B/s , which would be quoted as 3.2 GB/s . The ambiguous usage of the prefixes "kilo ("K" or "k"), "mega" ("M"), and "giga" ("G"), as meaning both powers of 1000 or (in computer contexts) of 1024, has been recorded in popular dictionaries, and even in some obsolete standards, such as ANSI/IEEE 1084-1986 and ANSI/IEEE 1212-1991 , IEEE 610.10-1994 , and IEEE 100-2000 . Some of these standards specifically limited
795-513: The IBM PC AT could hold 1200 × 1024 = 1 228 800 bytes, and thus was marketed as "1200 KB" with the binary sense of "KB". However, the capacity was also quoted "1.2 MB", 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
848-793: The ISO/IEC 80000 standard and are supported by other standards bodies, including the BIPM , which defines the SI system, the US NIST , and the European Union . Prior to the 1999 IEC standard, some industry organizations, such as the Joint Electron Device Engineering Council (JEDEC), attempted to redefine the terms kilobyte , megabyte , and gigabyte , and the corresponding symbols KB , MB , and GB in
901-529: The International Organization for Standardization (ISO) and International Electrotechnical Commission (IEC). The prefixes "kibi", "mebi", "gibi" and "tebi" were retained, but with the symbols "Ki" (with capital "K"), "Mi", "Gi" and "Ti" respectively. In January 1999, the IEC published this proposal, with additional prefixes "pebi" ("Pi") and "exbi" ("Ei"), as an international standard ( IEC 60027-2 Amendment 2) The standard reaffirmed
954-506: The SI prefixes were internationally adopted by the 11th CGPM conference in 1960. Early computers used one of two addressing methods to access the system memory; binary (base 2) or decimal (base 10). For example, the IBM 701 (1952) used a binary methods and could address 2048 words of 36 bits each, while the IBM 702 (1953) used a decimal system, and could address ten thousand 7-bit words. By
1007-503: The personal computer era. A common source of confusion was the discrepancy between the capacities of hard drives specified by manufacturers, using those prefixes in the decimal sense, and the numbers reported by operating systems and other software, that used them in the binary sense, such as the Apple Macintosh in 1984. For example, a hard drive marketed as "1 TB" could be reported as having only "931 GB". The confusion
1060-482: The BIPM's position that the SI prefixes should always denote powers of 10. The third edition of the standard, published in 2005, added prefixes "zebi" and "yobi", thus matching all then-defined SI prefixes with binary counterparts. The harmonized ISO / IEC IEC 80000-13 :2008 standard cancels and replaces subclauses 3.8 and 3.9 of IEC 60027-2:2005 (those defining prefixes for binary multiples). The only significant change
1113-588: The Greek letter kappa ( κ ) to denote 1024, κ to denote 1024 , and so on. (At the time, memory size was small, and only K was in widespread use.) In the same year, Wallace Givens responded with a suggestion to use bK as an abbreviation for 1024 and bK2 or bK for 1024 , though he noted that neither the Greek letter nor lowercase letter b would be easy to reproduce on computer printers of the day. Bruce Alan Martin of Brookhaven National Laboratory proposed that, instead of prefixes, binary powers of two were indicated by
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#17327652835021166-566: The IEC and IEEE standards define a MB as one million bytes but stated that the industry has largely ignored the IEC standards. The parties agreed that manufacturers could continue to use the decimal definition so long as the definition was added to the packaging and web sites. The consumers could apply for "a discount of ten percent off a future online purchase from Defendants' Online Stores Flash Memory Device". On 7 July 2005, an action entitled Orin Safier v. Western Digital Corporation, et al.
1219-562: The ISO 3166-1 alpha-2 country code top level domain for Kiribati Kitchenuhmaykoosib Inninuwug First Nation Religion and metaphysics [ edit ] Ki (goddess) Qi , or ki in Japanese, a vital force according to Chinese culture that forms part of any living thing Science and technology [ edit ] Biology and chemistry [ edit ] Ti (plant) , also called Kī K i , an equilibrium constant for
1272-539: The SI prefixes should be used only for powers of 10; so that a disk drive capacity of "500 gigabytes", "0.5 terabytes", "500 GB", or "0.5 TB" should all mean 500 × 10 bytes , exactly or approximately, rather than 500 × 2 (= 536 870 912 000 ) or 0.5 × 2 (= 549 755 813 888 ). The proposal was not accepted by IUPAC at the time, but was taken up in 1996 by the Institute of Electrical and Electronics Engineers (IEEE) in collaboration with
1325-435: The binary meaning to multiples of "byte" ("B") or "bit" ("b"). Before the IEC standard, several alternative proposals existed for unique binary prefixes, starting in the late 1960s. In 1996, Markus Kuhn proposed the extra prefix "di" and the symbol suffix or subscript "2" to mean "binary"; so that, for example, "one dikilobyte" would mean "1024 bytes", denoted "K 2 B" or "K2B". In 1968, Donald Morrison proposed to use
1378-569: The binary sense of "K". On the other hand, the quoted capacity of "1.44 MB" of the High Density ("HD") version was again a hybrid decimal and binary notation, since it meant 1440 pairs of 512-byte sectors, or 1440 × 2 = 1 474 560 bytes . Some operating systems displayed the capacity of those disks using the binary sense of "MB", as "1.4 MB" (which would be 1.4 × 2 ≈ 1 468 000 bytes ). User complaints forced both Apple and Microsoft to issue support bulletins explaining
1431-402: The binary sense, for use in storage capacity measurements. However, other computer industry sectors (such as magnetic storage ) continued using those same terms and symbols with the decimal meaning. Since then, the major standards organizations have expressly disapproved the use of SI prefixes to denote binary multiples, and recommended or mandated the use of the IEC prefixes for that purpose, but
1484-823: The binary unit prefix kibi Ki, International Electrotechnical Commission standard symbol for number 1024 K-I algorithm, Kittler and Illingworth iterative algorithm for image segmentation thresholding Ki (or K i ), the unique cryptographic key of each cell phone's SIM card Other uses [ edit ] Knowledge integration , in epistemology Grover C. Winn (1886–1943), nicknamed "Ki", American lawyer and politician See also [ edit ] [REDACTED] Search for "ki" or "k-i" on Misplaced Pages. All pages with titles beginning with KI All pages with titles beginning with ki All pages with titles containing k-i All pages with titles containing ki KL (disambiguation) K1 (disambiguation) Topics referred to by
1537-657: The block sizes were recorded on the disk, subtracting from the usable capacity. For example, the IBM 3336 disk pack was quoted to have a 200-megabyte capacity, achieved only with a single 13 030 -byte block in each of its 808 × 19 tracks. Decimal megabytes were used for disk capacity by the CDC in 1974. The Seagate ST-412 , one of several types installed in the IBM PC/XT , had a capacity of 10 027 008 bytes when formatted as 306 × 4 tracks and 32 256-byte sectors per track, which
1590-593: The capacity of storage devices or the size of computer files . The binary prefixes "kibi", "mebi", etc. were defined in 1999 by the International Electrotechnical Commission (IEC), in the IEC 60027-2 standard (Amendment 2). They were meant to replace the metric (SI) decimal power prefixes, such as "kilo" ( k, 10 = 1000 ), "mega" ( M, 10 = 1 000 000 ) and "giga" ( G, 10 = 1 000 000 000 ), that were commonly used in
1643-591: The capacity of a "10 MB" (decimal "M") disk drive could be reported as " 9.56 MB ", and that of a "300 GB" drive as "279.4 GB". Some operating systems, such as Mac OS X , Ubuntu , and Debian , have been updated to use "MB" and "GB" to denote decimal prefixes when displaying disk drive capacities and file sizes. Some manufacturers, such as Seagate Technology , have released recommendations stating that properly-written software and documentation should specify clearly whether prefixes such as "K", "M", or "G" mean binary or decimal multipliers. Floppy disks used
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1696-448: The capacity of a disk drive has hardly ever been a simple multiple of a power of 2. For example, the first commercially sold disk drive, the IBM 350 (1956), had 50 physical disk platters containing a total of 50 000 sectors of 100 characters each, for a total quoted capacity of 5 million characters. Moreover, since the 1960s, many disk drives used IBM's disk format , where each track was divided into blocks of user-specified size; and
1749-493: The capacity of their flash memory cards were false and misleading. Vroegh claimed that a 256 MB Flash Memory Device had only 244 MB of accessible memory. "Plaintiffs allege that Defendants marketed the memory capacity of their products by assuming that one megabyte equals one million bytes and one gigabyte equals one billion bytes." The plaintiffs wanted the defendants to use the customary values of 1024 for megabyte and 1024 for gigabyte. The plaintiffs acknowledged that
1802-422: The computer industry to indicate the nearest powers of two. For example, a memory module whose capacity was specified by the manufacturer as "2 megabytes" or "2 MB" would hold 2 × 2 = 2 097 152 bytes , instead of 2 × 10 = 2 000 000 . On the other hand, a hard disk whose capacity is specified by the manufacturer as "10 gigabytes" or "10 GB", holds 10 × 10 = 10 000 000 000 bytes, or
1855-598: The consumer packaging. Accordingly, many flash memory and hard disk manufacturers have disclosures on their packaging and web sites clarifying the formatted capacity of the devices or defining MB as 1 million bytes and 1 GB as 1 billion bytes. On 20 February 2004, Willem Vroegh filed a lawsuit against Lexar Media, Dane–Elec Memory, Fuji Photo Film USA , Eastman Kodak Company, Kingston Technology Company, Inc., Memorex Products, Inc.; PNY Technologies Inc., SanDisk Corporation , Verbatim Corporation , and Viking Interworks alleging that their descriptions of
1908-529: The defendant, SanDisk, upholding its use of "GB" to mean 1 000 000 000 bytes . In 1995, the International Union of Pure and Applied Chemistry 's (IUPAC) Interdivisional Committee on Nomenclature and Symbols (IDCNS) proposed the prefixes "kibi" (short for "kilobinary"), "mebi" ("megabinary"), "gibi" ("gigabinary") and "tebi" ("terabinary"), with respective symbols "kb", "Mb", "Gb" and "Tb", for binary multipliers. The proposal suggested that
1961-492: The discrepancy. When specifying the capacities of optical compact discs , "megabyte" and "MB" usually meant 1024 bytes. Thus a "700-MB" (or "80-minute") CD has a nominal capacity of about 700 MiB , which is approximately 730 MB (decimal). On the other hand, capacities of other optical disc storage media like DVD , Blu-ray Disc , HD DVD and magneto-optical (MO) have been generally specified in decimal gigabytes ("GB"), that is, 1000 bytes. In particular,
2014-556: The internal clock frequency of the original IBM PC was 4.77 MHz , that is 4 770 000 Hz . Similarly, digital information transfer rates are quoted using decimal prefixe. The Parallel ATA " 100 MB/s " disk interface can transfer 100 000 000 bytes per second, and a " 56 Kb/s " modem transmits 56 000 bits per second. Seagate specified the sustained transfer rate of some hard disk drive models with both decimal and IEC binary prefixes. The standard sampling rate of music compact disks , quoted as 44.1 kHz ,
2067-555: The letter B followed by the exponent, similar to E in decimal scientific notation . Thus one would write 3B20 for 3 × 2 . This convention is still used on some calculators to present binary floating point-numbers today. In 1969, Donald Knuth , who uses decimal notation like 1 MB = 1000 kB, proposed that the powers of 1024 be designated as "large kilobytes" and "large megabytes", with abbreviations KKB and MMB. The ambiguous meanings of "kilo", "mega", "giga", etc., has caused significant consumer confusion , especially in
2120-407: The long-established metric system prefixes "kilo", "mega", "giga", etc., defined to be powers of 10, to mean instead the nearest powers of two; namely, 2 = 1024, 2 = 1024 , 2 = 1024 , etc. The corresponding metric prefix symbols ("k", "M", "G", etc.) where used with the same binary meanings. The symbol for 2 = 1024 could be written either in lower case ("k") or in uppercase ("K"). The latter
2173-554: The mid-1960s, binary addressing had become the standard architecture in most computer designs, and main memory sizes were most commonly powers of two. This is the most natural configuration for memory, as all combinations of states of their address lines map to a valid address, allowing easy aggregation into a larger block of memory with contiguous addresses. While early documentation specified those memory sizes as exact numbers such as 4096, 8192, or 16 384 units (usually words , bytes, or bits), computer professionals also started using
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2226-401: The same term [REDACTED] This disambiguation page lists articles associated with the title KI . If an internal link led you here, you may wish to change the link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=KI&oldid=1217656512 " Category : Disambiguation pages Hidden categories: Short description
2279-407: The same time, sometimes by the same company. The HP 3000 business computer (1973) could have "64K", "96K", or "128K" bytes of memory. The use of SI prefixes, and the use of "K" instead of "k" remained popular in computer-related publications well into the 21st century, although the ambiguity persisted. The correct meaning was often clear from the context; for instance, in a binary-addressed computer,
2332-522: The software industry", they agreed to settle in March 2006 with 14 June 2006 as the Final Approval hearing date. Western Digital offered to compensate customers with a free download of backup and recovery software valued at US$ 30. They also paid $ 500 000 in fees and expenses to San Francisco lawyers Adam Gutride and Seth Safier, who filed the suit. The settlement called for Western Digital to add
2385-507: The true memory size had to be either a power of 2, or a small integer multiple thereof. Thus a "512 megabyte" RAM module was generally understood to have 512 × 1024 = 536 870 912 bytes, rather than 512 000 000 . In specifying disk drive capacities, manufacturers have always used conventional decimal SI prefixes representing powers of 10. Storage in a rotating disk drive is organized in platters and tracks whose sizes and counts are determined by mechanical engineering constraints so that
2438-561: The understanding that the values given were approximate, often truncated down. Thus, for example, a 1967 document by Control Data Corporation (CDC) abbreviated "2 = 64 × 1024 = 65 536 words" as "65K words" (rather than "64K" or "66K"), while the documentation of the HP 21MX real-time computer (1974) denoted 3 × 2 = 192 × 1024 = 196 608 as "196K" and 2 = 1 048 576 as "1M". These three possible meanings of "k" and "K" ("1024", "1000", or "approximately 1000") were used loosely around
2491-731: The use of SI prefixes in this sense has persisted in some fields. In 2022, the International Bureau of Weights and Measures (BIPM) adopted the decimal prefixes ronna for 1000 and quetta for 1000 . In analogy to the existing binary prefixes, a consultation paper of the International Committee for Weights and Measures ' Consultative Committee for Units (CCU) suggested the prefixes robi ( Ri, 1024 ) and quebi ( Qi, 1024 ) for their binary counterparts, but as of 2022 , no corresponding binary prefixes have been adopted. The relative difference between
2544-499: The values in the binary and decimal interpretations increases, when using the SI prefixes as the base, from 2.4% for kilo to nearly 27% for the quetta prefix. Although the prefixes ronna and quetta have been defined, as of 2022 no names have been officially assigned to the corresponding binary prefixes. The original metric system adopted by France in 1795 included two binary prefixes named double - (2×) and demi - ( 1 / 2 ×). However, these were not retained when
2597-433: Was compounded by fact that RAM manufacturers used the binary sense too. The different interpretations of disk size prefixes led to class action lawsuits against digital storage manufacturers. These cases involved both flash memory and hard disk drives. Early cases (2004–2007) were settled prior to any court ruling with the manufacturers admitting no wrongdoing but agreeing to clarify the storage capacity of their products on
2650-511: Was filed against Seagate Technology , alleging that Seagate overrepresented the amount of usable storage by 7% on hard drives sold between 22 March 2001 and 26 September 2007. The case was settled without Seagate admitting wrongdoing, but agreeing to supply those purchasers with free backup software or a 5% refund on the cost of the drives. On 22 January 2020, the district court of the Northern District of California ruled in favor of
2703-526: Was filed in the Superior Court for the City and County of San Francisco, Case No. CGC-05-442812. The case was subsequently moved to the Northern District of California, Case No. 05-03353 BZ. Although Western Digital maintained that their usage of units is consistent with "the indisputably correct industry standard for measuring and describing storage capacity", and that they "cannot be expected to reform
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#17327652835022756-757: Was often used intentionally to indicate the binary rather than decimal meaning. This convention, which could not be extended to higher powers, was widely used in the documentation of the IBM ;360 (1964) and of the IBM System/370 (1972), of the CDC ;7600 , of the DEC PDP-11 /70 (1975) and of the DEC VAX-11/780 (1977). In other documents, however, the metric prefixes and their symbols were used to denote powers of 10, but usually with
2809-670: Was quoted as "10 MB". Similarly, a "300 GB" hard drive can be expected to offer only slightly more than 300 × 10 = 300 000 000 000 , bytes, not 300 × 2 (which would be about 322 × 10 bytes or "322 GB"). The first terabyte (SI prefix, 1 000 000 000 000 bytes) hard disk drive was introduced in 2007. Decimal prefixes were generally used by information processing publications when comparing hard disk capacities. Some programs and operating systems, such as Microsoft Windows , still use "MB" and "GB" to denote binary prefixes even when displaying disk drive capacities and file sizes, as did Classic Mac OS . Thus, for example,
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